physical review research impact factor 2021

Physical Review Research

Subject Area and Category

• Physics and Astronomy (miscellaneous)

American Physical Society

Publication type

Information.

How to publish in this journal

The set of journals have been ranked according to their SJR and divided into four equal groups, four quartiles. Q1 (green) comprises the quarter of the journals with the highest values, Q2 (yellow) the second highest values, Q3 (orange) the third highest values and Q4 (red) the lowest values.

The SJR is a size-independent prestige indicator that ranks journals by their 'average prestige per article'. It is based on the idea that 'all citations are not created equal'. SJR is a measure of scientific influence of journals that accounts for both the number of citations received by a journal and the importance or prestige of the journals where such citations come from It measures the scientific influence of the average article in a journal, it expresses how central to the global scientific discussion an average article of the journal is.

Evolution of the number of published documents. All types of documents are considered, including citable and non citable documents.

This indicator counts the number of citations received by documents from a journal and divides them by the total number of documents published in that journal. The chart shows the evolution of the average number of times documents published in a journal in the past two, three and four years have been cited in the current year. The two years line is equivalent to journal impact factor ™ (Thomson Reuters) metric.

Evolution of the total number of citations and journal's self-citations received by a journal's published documents during the three previous years. Journal Self-citation is defined as the number of citation from a journal citing article to articles published by the same journal.

Evolution of the number of total citation per document and external citation per document (i.e. journal self-citations removed) received by a journal's published documents during the three previous years. External citations are calculated by subtracting the number of self-citations from the total number of citations received by the journal’s documents.

International Collaboration accounts for the articles that have been produced by researchers from several countries. The chart shows the ratio of a journal's documents signed by researchers from more than one country; that is including more than one country address.

Not every article in a journal is considered primary research and therefore "citable", this chart shows the ratio of a journal's articles including substantial research (research articles, conference papers and reviews) in three year windows vs. those documents other than research articles, reviews and conference papers.

Ratio of a journal's items, grouped in three years windows, that have been cited at least once vs. those not cited during the following year.

Evolution of the percentage of female authors.

Evolution of the number of documents cited by public policy documents according to Overton database.

Evoution of the number of documents related to Sustainable Development Goals defined by United Nations. Available from 2018 onwards.

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Physical Review Research - Impact Score, Ranking, SJR, h-index, Citescore, Rating, Publisher, ISSN, and Other Important Details

Published By: American Physical Society

Impact Score The impact Score or journal impact score (JIS) is equivalent to Impact Factor. The impact factor (IF) or journal impact factor (JIF) of an academic journal is a scientometric index calculated by Clarivate that reflects the yearly mean number of citations of articles published in the last two years in a given journal, as indexed by Clarivate's Web of Science. On the other hand, Impact Score is based on Scopus data.

Important details.

About Physical Review Research

Physical Review Research is a journal published by American Physical Society . This journal covers the area[s] related to Physics and Astronomy (miscellaneous), etc . The coverage history of this journal is as follows: 2019-2022. The rank of this journal is 1538 . This journal's impact score, h-index, and SJR are 4.23, 53, and 1.824, respectively. The ISSN of this journal is/are as follows: 26431564 . The best quartile of Physical Review Research is Q1 . This journal has received a total of 15713 citations during the last three years (Preceding 2022).

Physical Review Research Impact Score 2022-2023

The impact score (IS), also denoted as the Journal impact score (JIS), of an academic journal is a measure of the yearly average number of citations to recent articles published in that journal. It is based on Scopus data.

Prediction of Physical Review Research Impact Score 2023

Impact Score 2022 of Physical Review Research is 4.23 . If a similar downward trend continues, IS may decrease in 2023 as well.

Impact Score Graph

Check below the impact score trends of physical review research. this is based on scopus data..

Physical Review Research h-index

The h-index of Physical Review Research is 53 . By definition of the h-index, this journal has at least 53 published articles with more than 53 citations.

What is h-index?

The h-index (also known as the Hirsch index or Hirsh index) is a scientometric parameter used to evaluate the scientific impact of the publications and journals. It is defined as the maximum value of h such that the given Journal has published at least h papers and each has at least h citations.

Physical Review Research ISSN

The International Standard Serial Number (ISSN) of Physical Review Research is/are as follows: 26431564 .

The ISSN is a unique 8-digit identifier for a specific publication like Magazine or Journal. The ISSN is used in the postal system and in the publishing world to identify the articles that are published in journals, magazines, newsletters, etc. This is the number assigned to your article by the publisher, and it is the one you will use to reference your article within the library catalogues.

ISSN code (also called as "ISSN structure" or "ISSN syntax") can be expressed as follows: NNNN-NNNC Here, N is in the set {0,1,2,3...,9}, a digit character, and C is in {0,1,2,3,...,9,X}

Physical Review Research Ranking and SCImago Journal Rank (SJR)

SCImago Journal Rank is an indicator, which measures the scientific influence of journals. It considers the number of citations received by a journal and the importance of the journals from where these citations come.

Physical Review Research Publisher

The publisher of Physical Review Research is American Physical Society . The publishing house of this journal is located in the United States . Its coverage history is as follows: 2019-2022 .

Call For Papers (CFPs)

Please check the official website of this journal to find out the complete details and Call For Papers (CFPs).

How to publish in Physical Review Research

If your area of research or discipline is related to Physics and Astronomy (miscellaneous), etc. , please check the journal's official website to understand the complete publication process.

Acceptance Rate

• Interest/demand of researchers/scientists for publishing in a specific journal/conference.
• The complexity of the peer review process and timeline.
• Time taken from draft submission to final publication.
• Number of submissions received and acceptance slots
• And Many More.

The simplest way to find out the acceptance rate or rejection rate of a Journal/Conference is to check with the journal's/conference's editorial team through emails or through the official website.

Frequently Asked Questions (FAQ)

What is the impact score of physical review research.

The latest impact score of Physical Review Research is 4.23. It is computed in the year 2023.

What is the h-index of Physical Review Research?

The latest h-index of Physical Review Research is 53. It is evaluated in the year 2023.

What is the SCImago Journal Rank (SJR) of Physical Review Research?

The latest SCImago Journal Rank (SJR) of Physical Review Research is 1.824. It is calculated in the year 2023.

What is the ranking of Physical Review Research?

The latest ranking of Physical Review Research is 1538. This ranking is among 27955 Journals, Conferences, and Book Series. It is computed in the year 2023.

Who is the publisher of Physical Review Research?

Physical Review Research is published by American Physical Society. The publication country of this journal is United States.

What is the abbreviation of Physical Review Research?

This standard abbreviation of Physical Review Research is .

Is "Physical Review Research" a Journal, Conference or Book Series?

Physical Review Research is a journal published by American Physical Society.

What is the scope of Physical Review Research?

• Physics and Astronomy (miscellaneous)

For detailed scope of Physical Review Research, check the official website of this journal.

What is the ISSN of Physical Review Research?

The International Standard Serial Number (ISSN) of Physical Review Research is/are as follows: 26431564.

What is the best quartile for Physical Review Research?

The best quartile for Physical Review Research is Q1.

What is the coverage history of Physical Review Research?

The coverage history of Physical Review Research is as follows 2019-2022.

Credits and Sources

• Scimago Journal & Country Rank (SJR), https://www.scimagojr.com/
• Journal Impact Factor, https://clarivate.com/
• Issn.org, https://www.issn.org/
• Scopus, https://www.scopus.com/

Note: The impact score shown here is equivalent to the average number of times documents published in a journal/conference in the past two years have been cited in the current year (i.e., Cites / Doc. (2 years)). It is based on Scopus data and can be a little higher or different compared to the impact factor (IF) produced by Journal Citation Report. Please refer to the Web of Science data source to check the exact journal impact factor ™ (Thomson Reuters) metric.

Impact Score, SJR, h-Index, and Other Important metrics of These Journals, Conferences, and Book Series

Check complete list

Physical Review Research Impact Score (IS) Trend

Top Journals/Conferences in Physics and Astronomy (miscellaneous)

Scientometrics

Citing bodies, physical review research, what is the 2023 impact factor of physical review research .

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What niche is PRResearch supposed to fill that the other APS journals don’t already cover?

I read the description of the new journal PRResearch on the APS website, but I am still confused. APS publishes specialized journals, including PRA/B/C/D/E, for each major branch of physics, and journals with a broader scope and large impact, such as PRL and PRX.

My main question is: How is PRResearch standing in comparison with the specialized and lower impact PRA/B/C/D/E and the broader and higher impact PRL and PRX? What niche is it supposed to fill?

On one hand, PRResearch is multidisciplinary as PRL/PRX, and both PRResearch and PRX are full open access with publication charges, whereas the other APS journals are not full open access but only have open access options. On the other hand, as it is written on their website:

The acceptance criteria for PRResearch are aligned with those of other long-established journals in the family, such as Physical Review A, B, C, D, and E.

• publications
• open-access

• 2 They probably want to get those papers funded by grants that mandate Open Access publication. For my funding agencies, arXiv deposition (which is compatible with APS journals) is enough, but I guess some agencies demand the final version to be Open Access too. –  Miguel Commented Sep 15, 2020 at 18:27
• 1 Hasn't the second half of your question already been discussed here, in your very own question: academia.stackexchange.com/questions/155005/… I suggest you remove that part. –  user151413 Commented Sep 15, 2020 at 20:45
• @Miguel You can have this with PR[A-E] as well. –  user151413 Commented Sep 15, 2020 at 20:45
• @user151413 PR[A-E] are not compatible with Plan S coalition-s.org/… –  Anonymous Physicist Commented Sep 15, 2020 at 23:36
• 1 @sintetico: It is defined in this FAQ . And yes, this is primarily authored by me, but its purpose is to reflect the current community consensus as a status quo on which to base discussions as well as provide a FAQ. If you disagree with that, you have to suggest something else on Academia Meta and it has to get accepted by the community as reflected by votes. –  Wrzlprmft ♦ Commented Sep 16, 2020 at 7:20

APS clearly intends for Physical Review Research to be less selective than PRL/PRX, as they elucidated in two volume 1 editorials:

M. Thoennessen: "Editorial: Introducing Physical Review Research "

We are launching Physical Review Research to achieve three main objectives: (1) to cover the entire range of topics in physics and related fields, including interdisciplinary and newly emerging areas of research, (2) to offer an attractive option for all authors who prefer or are required to publish in fully open access journals, and (3) to align its quality standards and selection criteria with those of the other long-established topical journals in the family, such as Physical Review A–E, Physical Review Applied, Physical Review Fluids, and Physical Review Materials.

R. D'Souza, J.-W. Pan, N. Spaldin, and J. J. Liétor-Santos: "Editorial: Our vision for Physical Review Research " in volume 1:

Within the Physical Review family, Physical Review X provides an open access journal showcasing the most selective papers in pure, applied and interdisciplinary physics. Now, Physical Review Research will complement this title by providing a fully open access title with rigorous peer-review standards and with the same acceptance criteria as Physical Review A through E, Physical Review Applied, Physical Review Fluids, and Physical Review Materials. Our goal is to establish a publication that offers the same experience and quality that we value and trust, while increasing authors’ choice within the Physical Review portfolio. As such, we welcome authors of quality manuscripts not accepted by Physical Review X or Physical Review Letters to seamlessly transfer their work to be considered for publication in Physical Review Research.

Hence I would expect its initial impact factor (expected to arrive in June 2021) to be more aligned with the specialized journals, than with the flagships. But as you've already heard it is hard to tell exactly where it will end up.

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Physical Review Research

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Entanglement-enhanced estimation of a parameter embedded in multiple phases

Michael r. grace, christos n. gagatsos, and saikat guha, phys. rev. research 3 , 033114 – published 5 august 2021.

• Citing Articles (7)
• INTRODUCTION
• PHYSICAL MODEL AND ESTIMATION TASK
• QUANTUM FISHER INFORMATION
• PERFORMANCE EVALUATION OF PROPOSED…
• OPTICAL SENSING APPLICATIONS
• ACKNOWLEDGMENTS

Quantum-enhanced sensing promises to improve the performance of sensing tasks using nonclassical probes and measurements that require far fewer scene-modulated photons than the best classical schemes, thereby granting previously inaccessible information about a wide range of physical systems. We propose a generalized distributed sensing framework that uses an entangled quantum probe to estimate a scene-parameter encoded within an array of phases, with a functional dependence on that parameter determined by the physics of the actual system. The receiver uses a laser light source enhanced by quantum-entangled multipartite squeezed-vacuum light to probe the phases and thereby estimate the desired scene-parameter. The entanglement suppresses the collective quantum vacuum noise across the phase array. We report simple analytical expressions for the Cramér-Rao bound that depend only on the optical probes and the physical model of the measured system, and we show that our structured receiver asymptotically saturates the quantum Cramér-Rao bound in the lossless case. Our approach enables Heisenberg limited precision in estimating a scene-parameter with respect to total probe energy, as well as with respect to the number of modulated phases. Furthermore, we study the impact of uniform loss in our system and examine the behavior of both the quantum and the classical Cramér-Rao bounds. We apply our framework to examples as diverse as radio-frequency phased-array directional radar, beam-displacement tracking for atomic-force microscopy, and fiber-based temperature gradiometry.

• Received 15 April 2020
• Accepted 13 July 2021

DOI: https://doi.org/10.1103/PhysRevResearch.3.033114

Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

Published by the American Physical Society

Physics Subject Headings (PhySH)

• Research Areas

Authors & Affiliations

• James C. Wyant College of Optical Sciences, University of Arizona, Tucson, Arizona 85721, USA
• * [email protected]

Article Text

Vol. 3, Iss. 3 — August - October 2021

Subject Areas

• Quantum Physics

Authorization Required

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Sensing of a single parameter of interest x embedded in phase functions θ m ( x ) modulating M MZIs. Each two-mode MZI is probed with a coherent state and one mode of an M -mode-entangled squeezed vacuum state. F , the Fourier gate, is an M -mode linear-optical interferometer, and the detector at the output of the circuit is a homodyne detector. L denotes the pure loss channel which is modeled as a beam splitter with transmissivity τ whose lower input mode is set to vacuum. A local oscillator mode for homodyne detection is implied but not shown for simplicity.

Application of our entanglement-enhanced sensor framework to a 1D phased array of RF-photonic sensors. The angle of incidence ϕ of the RF field (yellow lines) is estimated using M RF-amplitude dependent optical phase modulators at lateral positions m b , which each modulate one arm of an optical MZI. Additional unitary transformations before and after the MZIs are not shown here (Fig.  1 ).

QFI and CFI for our entanglement-enhanced RF-photonic sensor as a function of the number of phases M that encode the unknown parameter. For fair comparison, we set the input energy to be proportional to M , i.e., N = M sinh 2 1 , resulting in a maximum of 7.69 dB of single-mode squeezing when M = 64 and α = 0 . For the results shown for H ϕ 0 (blue circles) and I ϕ 0 ( 3 ) (yellow diamonds), we optimize over input energy allocations for squeezing and displacement such that each point corresponds to a different numerically determined squeezing parameter. In the remaining two cases all energy is designated to the coherent state, such that r = 0 . For all plots we set A = 0.1 ,   Ω = 30  kHz, b = 10  m, and ϕ 0 = 0 in Eq. ( 35 ). Insets: optimal fraction of total probe energy allocated to squeezed vacuum to maximize H ϕ 0 (blue circles) and I ϕ 0 ( 3 ) (yellow diamonds).

Fisher information as a function of energy allocation between coherent state and SV for the RF-photonic sensor application. Solid lines: QFI. Dashed lines: CFI. Colors (from high to low): Blue: τ = 1 ; Green: τ = 0.9 ; Magenta: τ = 0.6 ; Red: τ = 0.3 .

A schematic of the optimal structured receiver design that attains the QFI for estimating the single scalar parameter x for the problem studied in this paper, as sketched in Fig.  1 . U L and U R are multimode passive linear-optical transformations, and S 1 , ... , S 2 M are single-mode squeezers. The homodyne detection receiver strategy depicted in Fig.  1 is strictly suboptimal in the presence of losses.

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Physical Review Research

• Collections
• Editorial Team

Volume 3, Issue 4

October - december 2021, highlighted articles, featured in physics editors' suggestion, stochastic dynamics of single molecules across phase boundaries, stefano bo, lars hubatsch, jonathan bauermann, christoph a. weber, and frank jülicher, phys. rev. research 3 , 043150 (2021) – published 2 december 2021, synopsis: the microscopic dynamics of biomolecular condensates.

The authors derive the stochastic dynamics of single-molecule trajectories in phase-separated liquids, study the displacement statistics of molecules across phase boundaries, and relate them to the physical properties of coexisting phases.

Show Abstract

• Biological Physics
• Soft Matter
• Statistical Physics

Editors' Suggestion

Quantum sensing of photonic spin density using a single spin qubit, farid kalhor, li-ping yang, leif bauer, and zubin jacob, phys. rev. research 3 , 043007 (2021) – published 1 october 2021.

The authors develop a technique to probe spinning light at the nanoscale using atom-like spin-qubits.

• Quantum Information

Competition between charge-density-wave and superconductivity in the kagome metal Rb V 3 Sb 5

N. n. wang, k. y. chen, q. w. yin, y. n. n. ma, b. y. pan, x. yang, x. y. ji, s. l. wu, p. f. shan, s. x. xu, z. j. tu, c. s. gong, g. t. liu, g. li, y. uwatoko, x. l. dong, h. c. lei, j. p. sun, and j.-g. cheng, phys. rev. research 3 , 043018 (2021) – published 7 october 2021.

The authors construct a M-shaped double superconducting dome and reveal the correlation between the CDW order and superconductivity in the Kagome metal RbV 3 Sb 5 .

• Condensed Matter Physics
• Superconductivity

Chiral modes near exceptional points in symmetry broken H1 photonic crystal cavities

C. f. fong, y. ota, y. arakawa, s. iwamoto, and y. k. kato, phys. rev. research 3 , 043096 (2021) – published 2 november 2021.

The authors propose a scheme to selective induce intrinsically circularly polarized chiral modes near the exceptional point by modifying two air holes in the vicinity of the H1 photonic crystal cavity.

• Metamaterials

Prospects for single-photon sideband cooling of optically trapped neutral atoms

F. berto, e. perego, l. duca, and c. sias, phys. rev. research 3 , 043106 (2021) – published 11 november 2021.

The authors present a scheme for sideband cooling of particles confined in state-dependent optical potentials.

• Atomic and Molecular Physics

Fate of topological edge states in disordered periodically driven nonlinear systems

Ken mochizuki, kaoru mizuta, and norio kawakami, phys. rev. research 3 , 043112 (2021) – published 12 november 2021.

The authors show that topological edge states unique to periodically driven systems survive in the nonlinear regime and experience transitions between long- and short-lifetime regions.

• Nonlinear Dynamics
• Topological Insulators

Gate-assisted phase fluctuations in all-metallic Josephson junctions

J. basset, o. stanisavljević, m. kuzmanović, j. gabelli, c. h. l. quay, j. estève, and m. aprili, phys. rev. research 3 , 043169 (2021) – published 10 december 2021.

The authors show that in all-metallic Josephson field effect transistors, the statistics of electron flow due to the gate leakage current is imprinted onto the Josephson switching current and explains its reduction.

• Nanophysics
• Quantum Physics

E 2 and gamma distributions in polygonal networks

Ran li, consuelo ibar, zhenru zhou, seyedsajad moazzeni, andrew n. norris, kenneth d. irvine, liping liu, and hao lin, phys. rev. research 3 , l042001 (2021) – published 5 october 2021.

This paper shows the onset of of an exponential distribution in the deformation tensor norm in polygonal tessellations and its intrinsic relationship with Gamma distributions in polygon aspect ratio.

Possibility of mixed helical p-wave pairings in Sr 2 RuO 4

Wen huang and zhiqiang wang, phys. rev. research 3 , l042002 (2021) – published 7 october 2021.

The authors propose a new superconducting state that can account for the Polar Kerr effect in strontium ruthenate.

Dynamical Jahn-Teller effects on the generation of electronic ring currents by circularly polarized light

Krishna r. nandipati and oriol vendrell, phys. rev. research 3 , l042003 (2021) – published 8 october 2021.

The authors show that dynamical Jahn-Teller effects influence the magnitude and direction of electronic ring currents in molecular systems with rotational symmetry.

Efficient verification of entangled continuous-variable quantum states with local measurements

Ye-chao liu, jiangwei shang, and xiangdong zhang, phys. rev. research 3 , l042004 (2021) – published 11 october 2021.

The authors propose a verification framework for continuous-variable quantum states with local measurements and provide a demonstration of the protocol in cases of entangled two-mode and multi-mode coherent states.

Gas-dynamic density downramp injection in a beam-driven plasma wakefield accelerator

J. p. couperus cabadağ et al., phys. rev. research 3 , l042005 (2021) – published 15 october 2021.

The authors combine two types of plasma accelerator to present a demonstration of internal injection in a beam driven wakefield accelerator.

• Plasma Physics

Terahertz emission mediated by ultrafast time-varying metasurfaces

J. tunesi, l. peters, j. s. totero gongora, l. olivieri, a. fratalocchi, a. pasquazi, and m. peccianti, phys. rev. research 3 , l042006 (2021) – published 18 october 2021.

The authors show the onset of exotic physical interaction regimes in sources based on ultrafast time-varying metasurfaces, where it is possible to manipulate the phase shifts of the terahertz field radiated by the medium.

Characterization of control in a superconducting qutrit using randomized benchmarking

M. kononenko, m. a. yurtalan, s. ren, j. shi, s. ashhab, and a. lupascu, phys. rev. research 3 , l042007 (2021) – published 22 october 2021.

The authors demonstrate universal control over three levels in a superconducting device and quantify its accuracy using randomized benchmarking.

Alternative momentum concept for a quantum mechanical particle in a box

M. h. al-hashimi and u.-j. wiese, phys. rev. research 3 , l042008 (2021) – published 26 october 2021.

This article proposes an alternative momentum concept to describe the product of the mass and velocity of a confined particle

Low-frequency quantum oscillations from interactions in layered metals

Andrew a. allocca and nigel r. cooper, phys. rev. research 3 , l042009 (2021) – published 28 october 2021.

The authors calculate a slow quantum oscillation resulting from the combination of interlayer interactions and fixing electron density in a layered metal.

• Materials Science

Similarity-based equational inference in physics

Jordan meadows and andré freitas, phys. rev. research 3 , l042010 (2021) – published 28 october 2021.

The authors automate partial computer algebra derivations from a contemporary result in physics, propose a method for converting handwritten derivations into computer algebra, and describe a dataset produced via this approach.

• Complex Systems

Geometry-induced rectification for an active object

Jae sung lee, jong-min park, jae dong noh, and hyunggyu park, phys. rev. research 3 , l042011 (2021) – published 29 october 2021.

The authors show that geometric asymmetry of an active particle rectifies its motion and induces unidirectional current.

Continuous time reversal and equality in the thermodynamic uncertainty relation

Andreas dechant and shin-ichi sasa, phys. rev. research 3 , l042012 (2021) – published 29 october 2021.

The authors propose a continuous time-reversal operation for diffusion processes and show how it can be used to understand and derive thermodynamic inequalities.

Protein induced lipid demixing in homogeneous membranes

Bernd henning stumpf, piotr nowakowski, christian eggeling, anna maciołek, and ana-sunčana smith, phys. rev. research 3 , l042013 (2021) – published 29 october 2021.

This article studies the adsorption of lipids around a hydrophobically mismatched membrane inclusion inducing the formation of domains in otherwise homogeneous membranes.

Deep vacancy induced low-density fluxional interfacial water

Keyang liu, jianqing guo, weizhong fu, and ji chen, phys. rev. research 3 , l042014 (2021) – published 29 october 2021.

The authors use ab initio molecular dynamics simulations to find the impact of deep vacancies on the interfacial water structure at anatase water interface.

• Chemical Physics
• Computational Physics

Insulator-to-metal crossover near the edge of the superconducting dome in Nd 1 − x Sr x NiO 2

Yu-te hsu, bai yang wang, maarten berben, danfeng li, kyuho lee, caitlin duffy, thom ottenbros, woo jin kim, motoki osada, steffen wiedmann, harold y. hwang, and nigel e. hussey, phys. rev. research 3 , l042015 (2021) – published 2 november 2021.

The authors uncover an insulator-to-metal crossover in the magnetic-field-induced normal state of infinite-layer nickelate thin films, near the edge of its superconducting dome.

Multifractal correlations of the local density of states in dirty superconducting films

M. stosiek, f. evers, and i. s. burmistrov, phys. rev. research 3 , l042016 (2021) – published 4 november 2021.

This paper show the multifractal nature of local density of states fluctuations in weakly disordered thin-film superconductors.

Chirality flip of Weyl nodes and its manifestation in strained MoTe 2

Viktor könye, adrien bouhon, ion cosma fulga, robert-jan slager, jeroen van den brink, and jorge i. facio, phys. rev. research 3 , l042017 (2021) – published 5 november 2021.

The authors show that the topological charge of a Weyl point can change its sign in a process that involves the merging of three Weyl nodes.

Quantum-geometry-induced intrinsic optical anomaly in multiorbital superconductors

Weipeng chen and wen huang, phys. rev. research 3 , l042018 (2021) – published 5 november 2021.

The authors show that electrons in multiorbital systems carry nontrivial quantum geometric information, which generates anomalous electromagnetic responses when these systems superconduct.

Spectral asymmetry of phonon sideband luminescence in monolayer and bilayer WSe 2

Victor funk, koloman wagner, edith wietek, jonas d. ziegler, jonathan förste, jessica lindlau, michael förg, kenji watanabe, takashi taniguchi, alexey chernikov, and alexander högele, phys. rev. research 3 , l042019 (2021) – published 5 november 2021.

The authors report an experimental study of temperature-dependent spectral line shapes of phonon sideband emission stemming from dark excitons in monolayer and bilayer WSe 2 .

Nonlocal amplification of intense vorticity in turbulent flows

Dhawal buaria and alain pumir, phys. rev. research 3 , l042020 (2021) – published 10 november 2021.

The authors develop a technique to probe the nonlocality of vorticity amplification and compare it with numerical simulations.

• Fluid Dynamics

Arrested phase separation in chiral fluids of colloidal spinners

Helena massana-cid, demian levis, raúl josué hernández hernández, ignacio pagonabarraga, and pietro tierno, phys. rev. research 3 , l042021 (2021) – published 10 november 2021.

The authors investigate the aggregation of magnetic colloidal spinners, and find that hydrodynamic interactions lead to phase separation and finite size clustering.

Active learning and element-embedding approach in neural networks for infinite-layer versus perovskite oxides

Armin sahinovic and benjamin geisler, phys. rev. research 3 , l042022 (2021) – published 10 november 2021.

The authors combine first-principles simulations and artificial intelligence algorithms to explore reduction energies, lattice parameters, and their statistical correlations in infinite-layer versus perovskite oxides across the periodic table.

Emergent parametric resonances and time-crystal phases in driven Bardeen-Cooper-Schrieffer systems

H. p. ojeda collado, gonzalo usaj, c. a. balseiro, damián h. zanette, and josé lorenzana, phys. rev. research 3 , l042023 (2021) – published 10 november 2021.

The authors find parametric resonances in a BCS system, analogously to a vertically driven pendulum, and observe the onset of a time-crystal condensate phase at resonance.

Unbiased Monte Carlo cluster updates with autoregressive neural networks

Dian wu, riccardo rossi, and giuseppe carleo, phys. rev. research 3 , l042024 (2021) – published 10 november 2021.

The paper shows that variationally-trained neural networks can generate efficient cluster update strategies for Markov-chain Monte Carlo in classical statistical physics.

Fast spectroscopic mapping of two-dimensional quantum materials

Berk zengin, jens oppliger, danyang liu, lorena niggli, tohru kurosawa, and fabian d. natterer, phys. rev. research 3 , l042025 (2021) – published 10 november 2021.

The authors combine sparse sampling and parallel spectroscopy for orders of magnitude faster mapping of two-dimensional quantum materials.

Dynamics of local adaptation in a stable environmental gradient

Edvin memet, ned s. wingreen, and yigal meir, phys. rev. research 3 , l042026 (2021) – published 17 november 2021.

The authors investigate the process of local adaptation in spatially structured populations that inhabit an environmental gradient.

Entanglement echo and dynamical entanglement transitions

Kim pöyhönen and teemu ojanen, phys. rev. research 3 , l042027 (2021) – published 18 november 2021.

The authors introduce the concept of an entanglement echo and apply it to show that there are two types of dynamical quantum phase transitions: entanglement-type transitions and the bulk-type Loschmidt transitions.

Ionic to neutral conversion induced by resonant excitation of molecular vibrations coupled to intermolecular charge transfer

T. morimoto, h. suzuki, t. otaki, n. sono, n. kida, t. miyamoto, and h. okamoto, phys. rev. research 3 , l042028 (2021) – published 18 november 2021.

The authors show that a strong vibrational excitation by a mid-infrared pulse in tetrathiafulvalene-p-chloranil drives an ionic to neutral conversion and a route to an electronic-state transition.

Fatigue crack growth in an aluminum alloy: Avalanches and coarse graining to growth laws

Ivan v. lomakin, tero mäkinen, kim widell, juha savolainen, sebastian coffeng, juha koivisto, and mikko j. alava, phys. rev. research 3 , l042029 (2021) – published 19 november 2021.

This paper presents the results of optical tracking of a crack tip in a fatigue test. The crack tip exhibits intermittent avalanche dynamics and the authors show how these relate to the crack growth law parameters.

Minimal lattice model of lipid membranes with liquid-ordered domains

Tanmoy sarkar and oded farago, phys. rev. research 3 , l042030 (2021) – published 19 november 2021.

The authors develop a minimal multiscale lattice model of the binary mixture of saturated lipid and cholesterol that reveals a new thermodynamic mechanism behind the appearance of heterogeneous liquid ordered domains in the mixture.

Self-pulsing in driven-dissipative photonic Bose-Hubbard dimers

Jesús yelo-sarrión, pedro parra-rivas, nicolas englebert, carlos mas arabí, françois leo, and simon-pierre gorza, phys. rev. research 3 , l042031 (2021) – published 22 november 2021.

The authors report on the experimental observation of stable self-switching oscillations in a pair of coupled fiber ring resonators coherently driven by a single laser beam.

Intrinsic Fermi-surface contribution to the bulk photovoltaic effect

Lingyuan gao, zachariah addison, e. j. mele, and andrew m. rappe, phys. rev. research 3 , l042032 (2021) – published 29 november 2021.

The authors discover an intrinsic contribution to nonlinear DC photocurrent resulting from the excitation on the Fermi surface.

• Electronics

Controllable spin current in van der Waals ferromagnet Fe 3 GeTe 2

Jiaqi zhou and jean-christophe charlier, phys. rev. research 3 , l042033 (2021) – published 29 november 2021.

This paper reports the spin transport in F e 3 G e T e 2 , demonstrating that the interplay of magnetism and symmetry can control the magnitude and polarization of the spin current.

Direct detection of odd-frequency superconductivity via time- and angle-resolved photoelectron fluctuation spectroscopy

Viktoriia kornich, frank schlawin, michael a. sentef, and björn trauzettel, phys. rev. research 3 , l042034 (2021) – published 3 december 2021.

The authors propose a measurement scheme to directly detect odd-frequency superconductivity via time- and angle-resolved photoelectron fluctuation spectroscopy.

Discovering invariants via machine learning

Seungwoong ha and hawoong jeong, phys. rev. research 3 , l042035 (2021) – published 9 december 2021.

The authors show that the neural network with a specific loss function can discover conserved quantity from a group of data without prior knowledge of the system dynamics.

Blackbody radiation shift in strontium lattice clocks revisited

Ch. lisdat, s. dörscher, i. nosske, and u. sterr, phys. rev. research 3 , l042036 (2021) – published 9 december 2021.

The authors study the determination of the blackbody radiation shift in strontium lattice clocks and find that the larger corrections are needed.

Unique surface-state connection between Weyl and nodal ring fermions in ferromagnetic material Cs 2 MoCl 6

Tiantian zhang, daisuke hara, and shuichi murakami, phys. rev. research 3 , l042037 (2021) – published 9 december 2021.

This paper shows that surface-state connections for the systems with coexistence of Weyl nodes and nodal rings exhibit different topological properties along different directions.

Two-dimensional electron gas at the (001) surface of ferromagnetic EuTiO 3

R. di capua, m. verma, m. radović, n. c. plumb, j. h. dil, z. ristić, e. b. guedes, g. m. de luca, d. preziosi, z. wang, a. p. weber, r. pentcheva, and m. salluzzo, phys. rev. research 3 , l042038 (2021) – published 10 december 2021.

The authors demonstrate the formation of a two-dimensional electrongas at the (001) surface of ferromagnetic EuTiO3 thin films,through in-situ ARPES measurements and use DFT+U calculations to show it is spin-polarized

Optimal squeezing for quantum target detection

Gaetana spedalieri and stefano pirandola, phys. rev. research 3 , l042039 (2021) – published 10 december 2021.

The authors explore the role of squeezing in quantum illumination and quantum reading and show that squeezed and displaced probes can outperform coherent states.

Fourier-domain transfer entropy spectrum

Yang tian, yaoyuan wang, ziyang zhang, and pei sun, phys. rev. research 3 , l042040 (2021) – published 15 december 2021.

The authors develop the Fourier-domain transfer entropy spectrum, a model-free metric of time varying and frequency-varying causality under non-stationary or high-dimensional conditions.

Resonance Raman optical cycling for high-fidelity fluorescence detection of molecules

J. c. shaw, j. c. schnaubelt, and d. j. mccarron, phys. rev. research 3 , l042041 (2021) – published 15 december 2021.

The authors propose a technique that makes specific molecules behave like efficient fluorophores, with discrete absorption and emission profiles that are readily separated for sensitive fluorescence detection in high-background-light environments.

Magnetic anisotropy of individually addressed spin states

L. c. j. m. peters, p. c. m. christianen, h. engelkamp, g. c. groenenboom, j. c. maan, e. kampert, p. t. tinnemans, a. e. rowan, and u. zeitler, phys. rev. research 3 , l042042 (2021) – published 16 december 2021.

The paper addresses the anisotropy of a magnetic molecule and shows that this anisotropy depends on the selected spin state.

Nonreciprocal linear dichroism observed in electron spin resonance spectra of the magnetoelectric multiferroic Pb ( TiO ) Cu 4 ( PO 4 ) 4

Mitsuru akaki, kenta kimura, yasuyuki kato, yuya sawada, yasuo narumi, hitoshi ohta, tsuyoshi kimura, yukitoshi motome, and masayuki hagiwara, phys. rev. research 3 , l042043 (2021) – published 17 december 2021.

The authors study the magnetic excitations by electron spin resonance in the magnetoelectric multiferroic Pb(TiO)Cu 4 (PO 4 ) 4 .

Higher-order topological insulators in two-dimensional Dirac materials

Yang xue, hao huan, bao zhao, youhua luo, zhenyu zhang, and zhongqin yang, phys. rev. research 3 , l042044 (2021) – published 23 december 2021.

The authors propose a strategy of antidot engineering to realize the second-order topological insulators and the non-trivial Kekulé model in two-dimensional Dirac materials.

Super-resolution sensing with a randomly scattering analyzer

Qiaoen luo, justin a. patel, and kevin j. webb, phys. rev. research 3 , l042045 (2021) – published 23 december 2021.

The authors propose a randomly scattering analyzer to circumvent the far-field diffraction limit and show how it can be used to sense subwavelength changes in an incident field.

Partitioning dysprosium's electronic spin to reveal entanglement in nonclassical states

Tanish satoor, aurélien fabre, jean-baptiste bouhiron, alexandre evrard, raphael lopes, and sylvain nascimbene, phys. rev. research 3 , 043001 (2021) – published 1 october 2021, wave topology brought to the coast, a. venaille and p. delplace, phys. rev. research 3 , 043002 (2021) – published 1 october 2021, charge and heat transport through quantum dots with local and correlated-hopping interactions, ulrich eckern and karol i. wysokiński, phys. rev. research 3 , 043003 (2021) – published 1 october 2021, collective dynamics of heterogeneously and nonlinearly coupled phase oscillators, can xu, xiaohuan tang, huaping lü, karin alfaro-bittner, stefano boccaletti, matjaž perc, and shuguang guan, phys. rev. research 3 , 043004 (2021) – published 1 october 2021, thermodynamic uncertainty relation in the overdamped limit with a magnetic lorentz force, jong-min park and hyunggyu park, phys. rev. research 3 , 043005 (2021) – published 1 october 2021, non-hermitian non-abelian topological insulators with pt symmetry, motohiko ezawa, phys. rev. research 3 , 043006 (2021) – published 1 october 2021, scanning two-grating free electron mach-zehnder interferometer, cameron w. johnson, amy e. turner, and benjamin j. mcmorran, phys. rev. research 3 , 043009 (2021) – published 4 october 2021, designing optimal networks for multicommodity transport problem, alessandro lonardi, enrico facca, mario putti, and caterina de bacco, phys. rev. research 3 , 043010 (2021) – published 4 october 2021, ferroelectrically controlled topological magnetic phase in a janus-magnet-based multiferroic heterostructure, qirui cui, yingmei zhu, jiawei jiang, jinghua liang, dongxing yu, ping cui, and hongxin yang, phys. rev. research 3 , 043011 (2021) – published 5 october 2021, reassessing the computational advantage of quantum-controlled ordering of gates, martin j. renner and časlav brukner, phys. rev. research 3 , 043012 (2021) – published 6 october 2021, phase transitions in the frustrated ising ladder with stoquastic and nonstoquastic catalysts, kabuki takada, shigetoshi sota, seiji yunoki, bibek pokharel, hidetoshi nishimori, and daniel a. lidar, phys. rev. research 3 , 043013 (2021) – published 6 october 2021, composable security for continuous variable quantum key distribution: trust levels and practical key rates in wired and wireless networks, stefano pirandola, phys. rev. research 3 , 043014 (2021) – published 7 october 2021, entropic barriers as a reason for hardness in both classical and quantum algorithms, matteo bellitti, federico ricci-tersenghi, and antonello scardicchio, phys. rev. research 3 , 043015 (2021) – published 7 october 2021, quantum spin compass models in two-dimensional electronic topological metasurfaces, f. o. nigmatulin, i. a. shelykh, and i. v. iorsh, phys. rev. research 3 , 043016 (2021) – published 7 october 2021.

• Mesoscopics
• Spintronics

Time delay in two-electron photodetachment and tests of fundamental threshold laws

Anatoli s. kheifets and i. bray, phys. rev. research 3 , 043017 (2021) – published 7 october 2021, antibunched n -photon bundles emitted by a josephson photonic device, sheng-li ma, xin-ke li, ya-long ren, ji-kun xie, and fu-li li, phys. rev. research 3 , 043020 (2021) – published 7 october 2021, engineering quantum wave-packet dispersion with a strong nonresonant femtosecond laser pulse, hiroyuki katsuki, yukiyoshi ohtsuki, toru ajiki, haruka goto, and kenji ohmori, phys. rev. research 3 , 043021 (2021) – published 8 october 2021, first-principles predictions of hall and drift mobilities in semiconductors, samuel poncé, francesco macheda, elena roxana margine, nicola marzari, nicola bonini, and feliciano giustino, phys. rev. research 3 , 043022 (2021) – published 8 october 2021.

• Semiconductor Physics

Degeneracy and hysteresis in a bidisperse colloidal ice

Carolina rodríguez-gallo, antonio ortiz-ambriz, and pietro tierno, phys. rev. research 3 , 043023 (2021) – published 8 october 2021, computing curie temperature of two-dimensional ferromagnets in the presence of exchange anisotropy, sabyasachi tiwari, joren vanherck, maarten l. van de put, william g. vandenberghe, and bart sorée, phys. rev. research 3 , 043024 (2021) – published 11 october 2021, generation of terahertz transients from co 2 fe 0.4 mn 0.6 si -heusler-alloy/normal-metal nanobilayers excited by femtosecond optical pulses, sarah heidtfeld, roman adam, takahide kubota, koki takanashi, derang cao, carolin schmitz-antoniak, daniel e. bürgler, fangzhou wang, christian greb, genyu chen, ivan komissarov, hilde hardtdegen, martin mikulics, roman sobolewski, shigemasa suga, and claus m. schneider, phys. rev. research 3 , 043025 (2021) – published 11 october 2021, non-clifford gate on optical qubits by nonlinear feedforward, shunya konno, warit asavanant, kosuke fukui, atsushi sakaguchi, fumiya hanamura, petr marek, radim filip, jun-ichi yoshikawa, and akira furusawa, phys. rev. research 3 , 043026 (2021) – published 11 october 2021, gradient catastrophe of nonlinear photonic valley-hall edge pulses, daria a. smirnova, lev a. smirnov, ekaterina o. smolina, dimitris g. angelakis, and daniel leykam, phys. rev. research 3 , 043027 (2021) – published 11 october 2021, impacts of pressure to the structural, electronic and magnetic properties of dirac semimetal eumnbi 2, resta a. susilo, wen deng, jiajia feng, aifeng wang, naomi kawamura, naoki ishimatsu, saori kawaguchi, mingzhi yuan, he li, weijun ren, takeshi nakagawa, cedomir petrovic, and bin chen, phys. rev. research 3 , 043028 (2021) – published 11 october 2021.

• Strongly Correlated Materials

Enhancing stimulated Raman excitation and two-photon absorption using entangled states of light

Anatoly svidzinsky, girish agarwal, anton classen, alexei v. sokolov, aleksei zheltikov, m. suhail zubairy, and marlan o. scully, phys. rev. research 3 , 043029 (2021) – published 12 october 2021, compact reconfigurable kirigami, gary p. t. choi, levi h. dudte, and l. mahadevan, phys. rev. research 3 , 043030 (2021) – published 13 october 2021, compact linear optical scheme for bell state generation, suren a. fldzhyan, mikhail yu. saygin, and sergei p. kulik, phys. rev. research 3 , 043031 (2021) – published 13 october 2021, field-angle anisotropy of proximate kitaev systems under an in-plane magnetic field, beom hyun kim, phys. rev. research 3 , 043032 (2021) – published 13 october 2021, free-electron qubits and maximum-contrast attosecond pulses via temporal talbot revivals, m. v. tsarev, a. ryabov, and p. baum, phys. rev. research 3 , 043033 (2021) – published 14 october 2021, from dual-unitary to quantum bernoulli circuits: role of the entangling power in constructing a quantum ergodic hierarchy, s. aravinda, suhail ahmad rather, and arul lakshminarayan, phys. rev. research 3 , 043034 (2021) – published 14 october 2021, optimal quantum-programmable projective measurements with coherent states, niraj kumar, ulysse chabaud, elham kashefi, damian markham, and eleni diamanti, phys. rev. research 3 , 043035 (2021) – published 14 october 2021, theory of cross quantum capacitance, christophe berthod, haijing zhang, alberto f. morpurgo, and thierry giamarchi, phys. rev. research 3 , 043036 (2021) – published 14 october 2021, transverse ultrafast laser inscription in bulk silicon, m. chambonneau, m. blothe, q. li, v. yu. fedorov, t. heuermann, m. gebhardt, c. gaida, s. tertelmann, f. sotier, j. limpert, s. tzortzakis, and s. nolte, phys. rev. research 3 , 043037 (2021) – published 14 october 2021, strain-induced topological phase transition at (111) srtio 3 -based heterostructures, m. trama, v. cataudella, and c. a. perroni, phys. rev. research 3 , 043038 (2021) – published 14 october 2021, non-markovian temperature sensing, ze-zhou zhang and wei wu, phys. rev. research 3 , 043039 (2021) – published 14 october 2021, compressed sensing for scanning tunnel microscopy imaging of defects and disorder, brian e. lerner, anayeli flores-garibay, benjamin j. lawrie, and petro maksymovych, phys. rev. research 3 , 043040 (2021) – published 14 october 2021, hypersonic nozzle for laser-spectroscopy studies at 17 k characterized by resonance-ionization-spectroscopy-based flow mapping, r. ferrer, m. verlinde, e. verstraelen, a. claessens, m. huyse, s. kraemer, yu. kudryavtsev, j. romans, p. van den bergh, p. van duppen, a. zadvornaya, o. chazot, g. grossir, v. i. kalikmanov, m. nabuurs, and d. reynaerts, phys. rev. research 3 , 043041 (2021) – published 15 october 2021.

• Nuclear Physics

Spectroscopic signatures of gate-controlled superconducting phases

Maria teresa mercaldo, francesco giazotto, and mario cuoco, phys. rev. research 3 , 043042 (2021) – published 15 october 2021, continuous entanglement renormalization on the circle, ling-yan hung and guifré vidal, phys. rev. research 3 , 043044 (2021) – published 15 october 2021, weak-measurement-induced phases and dephasing: broken symmetry of the geometric phase, kyrylo snizhko, nihal rao, parveen kumar, and yuval gefen, phys. rev. research 3 , 043045 (2021) – published 18 october 2021, triunitary quantum circuits, cheryne jonay, vedika khemani, and matteo ippoliti, phys. rev. research 3 , 043046 (2021) – published 18 october 2021, filter-function formalism and software package to compute quantum processes of gate sequences for classical non-markovian noise, tobias hangleiter, pascal cerfontaine, and hendrik bluhm, phys. rev. research 3 , 043047 (2021) – published 18 october 2021, topology of critical chiral phases: multiband insulators and superconductors, oleksandr balabanov, daniel erkensten, and henrik johannesson, phys. rev. research 3 , 043048 (2021) – published 18 october 2021, inference with finite time series: observing the gravitational universe through windows, colm talbot, eric thrane, sylvia biscoveanu, and rory smith, phys. rev. research 3 , 043049 (2021) – published 18 october 2021.

• Astrophysics

Generation of highly mutually coherent hard-x-ray pulse pairs with an amplitude-splitting delay line

Haoyuan li, yanwen sun, joan vila-comamala, takahiro sato, sanghoon song, peihao sun, matthew h. seaberg, nan wang, j. b. hastings, mike dunne, paul fuoss, christian david, mark sutton, and diling zhu, phys. rev. research 3 , 043050 (2021) – published 18 october 2021, selectivity in electron emission induced by ultrashort circularly polarized laser pulses, s. walker, l. kolanz, j. venzke, and a. becker, phys. rev. research 3 , 043051 (2021) – published 19 october 2021, magneto-optical spectra of the split nickel-vacancy defect in diamond, gergő thiering and adam gali, phys. rev. research 3 , 043052 (2021) – published 19 october 2021, contact force measurements and local anisotropy in ellipses and disks, yinqiao wang (汪银桥), jin shang, yujie wang, and jie zhang, phys. rev. research 3 , 043053 (2021) – published 20 october 2021, spectral link of the generalized townsend-perry constants in turbulent boundary layers, björn birnir, luiza angheluta, john kaminsky, and xi chen, phys. rev. research 3 , 043054 (2021) – published 21 october 2021, emergence of dirac composite fermions: dipole picture, guangyue ji and junren shi, phys. rev. research 3 , 043055 (2021) – published 21 october 2021, thermality, causality, and the quantum-controlled unruh–dewitt detector, joshua foo, sho onoe, robert b. mann, and magdalena zych, phys. rev. research 3 , 043056 (2021) – published 21 october 2021.

• Particles and Fields

Memory-cognizant generalization to Simon's random-copying neutral model

Joseph d. o'brien and james p. gleeson, phys. rev. research 3 , 043057 (2021) – published 21 october 2021.

• Interdisciplinary Physics

Tunneling Hamiltonian analysis of DC Josephson currents in a weakly-interacting Bose-Einstein condensate

Shun uchino, phys. rev. research 3 , 043058 (2021) – published 21 october 2021, d 1 magic wavelength tweezers for scaling atom arrays, mohammad mujahid aliyu, luheng zhao, xiu quan quek, krishna chaitanya yellapragada, and huanqian loh, phys. rev. research 3 , 043059 (2021) – published 21 october 2021, rényi entropy dynamics and lindblad spectrum for open quantum systems, yi-neng zhou, liang mao, and hui zhai, phys. rev. research 3 , 043060 (2021) – published 21 october 2021, self-organization and shape change by active polarization in nematic droplets, fabian jan schwarzendahl, pierre ronceray, kimberly l. weirich, and kinjal dasbiswas, phys. rev. research 3 , 043061 (2021) – published 22 october 2021, quantum to classical walk transitions tuned by spontaneous emissions, j. h. clark, c. groiseau, z. n. shaw, s. dadras, c. binegar, s. wimberger, g. s. summy, and y. liu, phys. rev. research 3 , 043062 (2021) – published 22 october 2021, efficiency and beam quality for positron acceleration in loaded plasma wakefields, c. s. hue, g. j. cao, i. a. andriyash, a. knetsch, m. j. hogan, e. adli, s. gessner, and s. corde, phys. rev. research 3 , 043063 (2021) – published 22 october 2021, mirror-symmetry-protected dynamical quantum phase transitions in topological crystalline insulators, ryo okugawa, hiroki oshiyama, and masayuki ohzeki, phys. rev. research 3 , 043064 (2021) – published 22 october 2021, multiparticle quantum interference in bogoliubov bosonic transformations, michael g. jabbour and nicolas j. cerf, phys. rev. research 3 , 043065 (2021) – published 22 october 2021, denoising low-intensity diffraction signals using k -space deep learning: applications to phase recovery, sung yun lee, do hyung cho, chulho jung, daeho sung, daewoong nam, sangsoo kim, and changyong song, phys. rev. research 3 , 043066 (2021) – published 22 october 2021, unquantized anomalies in topological semimetals, l. gioia, chong wang, and a. a. burkov, phys. rev. research 3 , 043067 (2021) – published 22 october 2021, strong fulde-ferrell larkin-ovchinnikov pairing fluctuations in polarized fermi systems, michele pini, pierbiagio pieri, and giancarlo calvanese strinati, phys. rev. research 3 , 043068 (2021) – published 25 october 2021, topologically-mediated energy release by relativistic antiferromagnetic solitons, r. m. otxoa, r. rama-eiroa, p. e. roy, g. tatara, o. chubykalo-fesenko, and u. atxitia, phys. rev. research 3 , 043069 (2021) – published 25 october 2021, simplifying topological entanglements by entropic competition of slip-links, andrea bonato, davide marenduzzo, and davide michieletto, phys. rev. research 3 , 043070 (2021) – published 25 october 2021, all-microwave nonadiabatic multiqubit geometric phase gate for superconducting qubits, t.-q. cai, j.-h. wang, z.-l. wang, x.-y. han, y.-k. wu, y.-p. song, and l.-m. duan, phys. rev. research 3 , 043071 (2021) – published 26 october 2021.

• Optoelectronics

Toward simulating quantum field theories with controlled phonon-ion dynamics: A hybrid analog-digital approach

Zohreh davoudi, norbert m. linke, and guido pagano, phys. rev. research 3 , 043072 (2021) – published 26 october 2021, certifying the classical simulation cost of a quantum channel, brian doolittle and eric chitambar, phys. rev. research 3 , 043073 (2021) – published 26 october 2021, inferring microscale properties of interacting systems from macroscale observations, nazareno campioni, dirk husmeier, juan morales, jennifer gaskell, and colin j. torney, phys. rev. research 3 , 043074 (2021) – published 26 october 2021, feedback-stabilized dynamical steady states in the bose-hubbard model, jeremy t. young, alexey v. gorshkov, and i. b. spielman, phys. rev. research 3 , 043075 (2021) – published 27 october 2021, alternative experimental ways to access entropy production, zheng tan, patrice a. camati, guillaume cœuret cauquil, alexia auffèves, and igor dotsenko, phys. rev. research 3 , 043076 (2021) – published 28 october 2021, microscopic theory of intrinsic timescales in spiking neural networks, alexander van meegen and sacha j. van albada, phys. rev. research 3 , 043077 (2021) – published 28 october 2021, superconducting on-chip spectrometer for mesoscopic quantum systems, j. griesmar, r. h. rodriguez, v. benzoni, j.-d. pillet, j.-l. smirr, f. lafont, and ç. ö. girit, phys. rev. research 3 , 043078 (2021) – published 28 october 2021, optimal quantum noise cancellation with an entangled witness channel, daniel w. gould, min jet yap, vaishali b. adya, bram j. j. slagmolen, robert l. ward, and david e. mcclelland, phys. rev. research 3 , 043079 (2021) – published 28 october 2021, reactive helicity and reactive power in nanoscale optics: evanescent waves. kerker conditions. optical theorems and reactive dichroism, manuel nieto-vesperinas and xiaohao xu, phys. rev. research 3 , 043080 (2021) – published 28 october 2021, scaling law and universal drop size distribution of coarsening in conversion-limited phase separation, chiu fan lee, phys. rev. research 3 , 043081 (2021) – published 28 october 2021, hubbard model on triangular n -leg cylinders: chiral and nonchiral spin liquids, luca f. tocchio, arianna montorsi, and federico becca, phys. rev. research 3 , 043082 (2021) – published 29 october 2021, hidden nonmacrorealism: reviving the leggett-garg inequality with stochastic operations, huan-yu ku, hao-cheng weng, yen-an shih, po-chen kuo, neill lambert, franco nori, chih-sung chuu, and yueh-nan chen, phys. rev. research 3 , 043083 (2021) – published 29 october 2021, non-abelian fracton order from gauging a mixture of subsystem and global symmetries, yi-ting tu and po-yao chang, phys. rev. research 3 , 043084 (2021) – published 29 october 2021, bridging the information and dynamics attributes of neural activities, yang tian, guoqi li, and pei sun, phys. rev. research 3 , 043085 (2021) – published 29 october 2021, topological superconductivity in eus/au/superconductor heterostructures, ying-ming xie, k. t. law, and patrick a. lee, phys. rev. research 3 , 043086 (2021) – published 29 october 2021, self-bayesian aberration removal via constraints for ultracold atom microscopy, emine altuntaş and i. b. spielman, phys. rev. research 3 , 043087 (2021) – published 29 october 2021, pulse-efficient circuit transpilation for quantum applications on cross-resonance-based hardware, nathan earnest, caroline tornow, and daniel j. egger, phys. rev. research 3 , 043088 (2021) – published 29 october 2021, catalytic quantum randomness as a correlational resource, seok hyung lie and hyunseok jeong, phys. rev. research 3 , 043089 (2021) – published 29 october 2021, spin-wave growth via shapiro resonances in a spinor bose-einstein condensate, yuya imaeda, kazuya fujimoto, and yuki kawaguchi, phys. rev. research 3 , 043090 (2021) – published 29 october 2021, su(3) truncated wigner approximation for strongly interacting bose gases, kazuma nagao, yosuke takasu, yoshiro takahashi, and ippei danshita, phys. rev. research 3 , 043091 (2021) – published 1 november 2021, synchronization in disordered oscillator lattices: nonequilibrium phase transition for driven-dissipative bosons, john p. moroney and paul r. eastham, phys. rev. research 3 , 043092 (2021) – published 1 november 2021, geometrical aspects of entropy production in stochastic thermodynamics based on wasserstein distance, muka nakazato and sosuke ito, phys. rev. research 3 , 043093 (2021) – published 1 november 2021, hidden linear defects in surfactant onions revealed by coalescence into lamellar layers, yoshimasa izaki, rei kurita, and hajime tanaka, phys. rev. research 3 , 043094 (2021) – published 1 november 2021, quantum gram-schmidt processes and their application to efficient state readout for quantum algorithms, kaining zhang, min-hsiu hsieh, liu liu, and dacheng tao, phys. rev. research 3 , 043095 (2021) – published 1 november 2021, local inhibitory networks support up to ( n − 1 ) / ln n 2 limit cycles in the presence of electronic noise and heterogeneity, ashok s. chauhan, joseph d. taylor, and alain nogaret, phys. rev. research 3 , 043097 (2021) – published 3 november 2021, gravitational wave sensors based on superconducting transducers, armen gulian, joe foreman, vahan nikoghosyan, louis sica, pablo abramian-barco, jeff tollaksen, gurgen melkonyan, iris mowgood, chris burdette, rajendra dulal, serafim teknowijoyo, sara chahid, and shmuel nussinov, phys. rev. research 3 , 043098 (2021) – published 8 november 2021.

• Gravitation

Hidden self-energies as origin of cuprate superconductivity revealed by machine learning

Youhei yamaji, teppei yoshida, atsushi fujimori, and masatoshi imada, phys. rev. research 3 , 043099 (2021) – published 8 november 2021, cyclic einstein-podolsky-rosen steering, istván márton, sándor nagy, erika bene, and tamás vértesi, phys. rev. research 3 , 043100 (2021) – published 8 november 2021, learning orbital dynamics of binary black hole systems from gravitational wave measurements, brendan keith, akshay khadse, and scott e. field, phys. rev. research 3 , 043101 (2021) – published 9 november 2021, superconductivity of h 3 s doped with light elements, hongyi guan, ying sun, and hanyu liu, phys. rev. research 3 , 043102 (2021) – published 10 november 2021, robustness of chiral edge modes in fractal-like lattices below two dimensions: a case study, sonja fischer, michal van hooft, twan van der meijden, cristiane morais smith, lars fritz, and mikael fremling, phys. rev. research 3 , 043103 (2021) – published 10 november 2021, algebraic correlations and anomalous fluctuations in ordered flocks of janus particles fueled by an ac electric field, junichiro iwasawa, daiki nishiguchi, and masaki sano, phys. rev. research 3 , 043104 (2021) – published 10 november 2021, unconventional pairing in few-fermion systems tuned by external confinement, jacek dobrzyniecki, giuliano orso, and tomasz sowiński, phys. rev. research 3 , 043105 (2021) – published 10 november 2021, experimental clathrate superhydrides euh 6 and euh 9 at extreme pressure conditions, liang ma, mi zhou, yingying wang, saori kawaguchi, yasuo ohishi, feng peng, hanyu liu, guangtao liu, hongbo wang, and yanming ma, phys. rev. research 3 , 043107 (2021) – published 12 november 2021, equidistant quenches in few-level quantum systems, sreekanth k. manikandan, phys. rev. research 3 , 043108 (2021) – published 12 november 2021, vortex and soliton dynamics in particle-hole-symmetric superfluids, jim skulte, lukas broers, jayson g. cosme, and ludwig mathey, phys. rev. research 3 , 043109 (2021) – published 12 november 2021.

• Superfluidity

Externally controlled and switchable two-dimensional electron gas at the Rashba interface between ferroelectrics and heavy d metals

T. aull, i. v. maznichenko, s. ostanin, e. şaşıoğlu, and i. mertig, phys. rev. research 3 , 043110 (2021) – published 12 november 2021, level attraction and idler resonance in a strongly driven josephson cavity, f. fani sani, i. c. rodrigues, d. bothner, and g. a. steele, phys. rev. research 3 , 043111 (2021) – published 12 november 2021, kondo lattice mediated interactions in flat-band systems, pramod kumar, guangze chen, and j. l. lado, phys. rev. research 3 , 043113 (2021) – published 12 november 2021, quantum phase transition of fracton topological orders, ting fung jeffrey poon and xiong-jun liu, phys. rev. research 3 , 043114 (2021) – published 15 november 2021, dynamic formation of quasicondensate and spontaneous vortices in a strongly interacting fermi gas, xiang-pei liu, xing-can yao, youjin deng, yu-xuan wang, xiao-qiong wang, xiaopeng li, qijin chen, yu-ao chen, and jian-wei pan, phys. rev. research 3 , 043115 (2021) – published 15 november 2021, verifying single-mode nonclassicality beyond negativity in phase space, jiyong park, jaehak lee, and hyunchul nha, phys. rev. research 3 , 043116 (2021) – published 15 november 2021, catalog of gamma-ray glows during four winter seasons in japan, y. wada, t. matsumoto, t. enoto, k. nakazawa, t. yuasa, y. furuta, d. yonetoku, t. sawano, g. okada, h. nanto, s. hisadomi, y. tsuji, g. s. diniz, k. makishima, and h. tsuchiya, phys. rev. research 3 , 043117 (2021) – published 15 november 2021, quantifying entanglement in cluster states built with error-prone interactions, zhangjie qin, woo-ram lee, brian demarco, bryce gadway, svetlana kotochigova, and v. w. scarola, phys. rev. research 3 , 043118 (2021) – published 15 november 2021, dissipative preparation of fractional chern insulators, zhao liu, emil j. bergholtz, and jan carl budich, phys. rev. research 3 , 043119 (2021) – published 15 november 2021, robust multipartite entanglement without entanglement breaking, ming-xing luo and shao-ming fei, phys. rev. research 3 , 043120 (2021) – published 16 november 2021, deep variational quantum eigensolver for excited states and its application to quantum chemistry calculation of periodic materials, kaoru mizuta, mikiya fujii, shigeki fujii, kazuhide ichikawa, yutaka imamura, yukihiro okuno, and yuya o. nakagawa, phys. rev. research 3 , 043121 (2021) – published 16 november 2021, experimental estimation of the quantum fisher information from randomized measurements, min yu, dongxiao li, jingcheng wang, yaoming chu, pengcheng yang, musang gong, nathan goldman, and jianming cai, phys. rev. research 3 , 043122 (2021) – published 16 november 2021, structural reduction of chemical reaction networks based on topology, yuji hirono, takashi okada, hiroyasu miyazaki, and yoshimasa hidaka, phys. rev. research 3 , 043123 (2021) – published 17 november 2021, weighted directed clustering: interpretations and requirements for heterogeneous, inferred, and measured networks, tanguy fardet and anna levina, phys. rev. research 3 , 043124 (2021) – published 17 november 2021, spectral weight of hole-doped cuprates across the pseudogap critical point, b. michon, a. b. kuzmenko, m. k. tran, b. mcelfresh, s. komiya, s. ono, s. uchida, and d. van der marel, phys. rev. research 3 , 043125 (2021) – published 19 november 2021, determinant-free fermionic wave function using feed-forward neural networks, koji inui, yasuyuki kato, and yukitoshi motome, phys. rev. research 3 , 043126 (2021) – published 19 november 2021, creep in reactive colloidal gels: a nanomechanical study of cement hydrates, michael haist, thibaut divoux, konrad j. krakowiak, jørgen skibsted, roland j.-m. pellenq, harald s. müller, and franz-josef ulm, phys. rev. research 3 , 043127 (2021) – published 19 november 2021, formation and quench of homonuclear and heteronuclear quantum droplets in one dimension, s. i. mistakidis, t. mithun, p. g. kevrekidis, h. r. sadeghpour, and p. schmelcher, phys. rev. research 3 , 043128 (2021) – published 19 november 2021, broadband negative-index surface-waves on arrays of capped helices, p. petrov, a. p. hibbins, j. r. sambles, n. aboulkhair, and e. saleh, phys. rev. research 3 , 043129 (2021) – published 19 november 2021, sampling-based quasiprobability simulation for fault-tolerant quantum error correction on the surface codes under coherent noise, shigeo hakkaku, kosuke mitarai, and keisuke fujii, phys. rev. research 3 , 043130 (2021) – published 19 november 2021, tailoring spatially unpolarized light on the poincaré sphere: from equator states via meridian states to generalized great-circle states, florian kroh, markus rosskopf, and wolfgang elsäßer, phys. rev. research 3 , 043131 (2021) – published 22 november 2021, skewed non-fermi liquids and the seebeck effect, antoine georges and jernej mravlje, phys. rev. research 3 , 043132 (2021) – published 22 november 2021, following floquet states in high-dimensional hilbert spaces, nils krüger and martin holthaus, phys. rev. research 3 , 043133 (2021) – published 22 november 2021, numerical integration of quantum time evolution in a curved manifold, jessica f. k. halliday and emilio artacho, phys. rev. research 3 , 043134 (2021) – published 22 november 2021, unifying framework for information processing in stochastically driven dynamical systems, tomoyuki kubota, hirokazu takahashi, and kohei nakajima, phys. rev. research 3 , 043135 (2021) – published 23 november 2021, uncovering hidden dependency in weighted networks via information entropy, mi jin lee (이미진), eun lee (이은), byunghwee lee (이병휘), hawoong jeong (정하웅), deok-sun lee (이덕선), and sang hoon lee (이상훈), phys. rev. research 3 , 043136 (2021) – published 29 november 2021, metastability associated with many-body explosion of eigenmode expansion coefficients, takashi mori, phys. rev. research 3 , 043137 (2021) – published 29 november 2021, transformation of spin in quantum reference frames, marion mikusch, luis c. barbado, and časlav brukner, phys. rev. research 3 , 043138 (2021) – published 29 november 2021, dynamics of equilibration and collisions in ultradilute quantum droplets, v. cikojević, l. vranješ markić, m. pi, m. barranco, f. ancilotto, and j. boronat, phys. rev. research 3 , 043139 (2021) – published 29 november 2021, multivariate scaling of maximum proton energy in intense laser driven ion acceleration, yuji takagi, natsumi iwata, emmanuel d'humieres, and yasuhiko sentoku, phys. rev. research 3 , 043140 (2021) – published 29 november 2021, quantum nanofriction in trapped ion chains with a topological defect, l. timm, l. a. rüffert, h. weimer, l. santos, and t. e. mehlstäubler, phys. rev. research 3 , 043141 (2021) – published 29 november 2021, voltage-controlled hubbard spin transistor, rozhin yousefjani, sougato bose, and abolfazl bayat, phys. rev. research 3 , 043142 (2021) – published 29 november 2021, hot carrier dynamics and electron-optical phonon coupling in photoexcited graphene via time-resolved ultrabroadband terahertz spectroscopy, sho ikeda, chiko otani, and masatsugu yamashita, phys. rev. research 3 , 043143 (2021) – published 29 november 2021, third order effect of postionization population redistribution in strong field, xiangxu mu, ming zhang, hanwei yang, min li, keyu guo, zijian lü, jiechao feng, haitan xu, song bin zhang, and zheng li, phys. rev. research 3 , 043144 (2021) – published 29 november 2021, improving application performance with biased distributions of quantum states, sanjaya lohani, joseph m. lukens, daniel e. jones, thomas a. searles, ryan t. glasser, and brian t. kirby, phys. rev. research 3 , 043145 (2021) – published 29 november 2021, capturing the diversity of multilingual societies, thomas louf, david sánchez, and josé j. ramasco, phys. rev. research 3 , 043146 (2021) – published 30 november 2021, witnessing latent time correlations with a single quantum particle, hlér kristjánsson, wenxu mao (貌文徐), and giulio chiribella, phys. rev. research 3 , 043147 (2021) – published 30 november 2021, anomalous inverse proximity effect in unconventional superconductor junctions, shu-ichiro suzuki, takashi hirai, matthias eschrig, and yukio tanaka, phys. rev. research 3 , 043148 (2021) – published 1 december 2021, experimental evidence of a change of exchange anisotropy sign with temperature in zn-substituted cu 2 oseo 3, s. h. moody, p. nielsen, m. n. wilson, d. alba venero, a. štefančič, g. balakrishnan, and p. d. hatton, phys. rev. research 3 , 043149 (2021) – published 1 december 2021, superconducting gap and pseudogap in the surface states of the iron-based superconductor prfeaso 1 − y studied by angle-resolved photoemission spectroscopy, k. hagiwara, m. ishikado, m. horio, k. koshiishi, s. nakata, s. ideta, k. tanaka, k. horiba, k. ono, h. kumigashira, t. yoshida, s. ishida, h. eisaki, s. shamoto, and a. fujimori, phys. rev. research 3 , 043151 (2021) – published 2 december 2021, efficient asymmetric collisional brownian particle engines, c. e. fernández noa, angel l. l. stable, william g. c. oropesa, alexandre rosas, and c. e. fiore, phys. rev. research 3 , 043152 (2021) – published 2 december 2021, memory in non-monotonic stress response of an athermal disordered solid, rituparno mandal, diego tapias, and peter sollich, phys. rev. research 3 , 043153 (2021) – published 3 december 2021, multiplexed telecommunication-band quantum networking with atom arrays in optical cavities, william huie, shankar g. menon, hannes bernien, and jacob p. covey, phys. rev. research 3 , 043154 (2021) – published 3 december 2021, chiral response of spin-spiral states as the origin of chiral transport fingerprints of spin textures, jonathan kipp, fabian r. lux, and yuriy mokrousov, phys. rev. research 3 , 043155 (2021) – published 3 december 2021, group theoretic approach to many-body scar states in fermionic lattice models, k. pakrouski, p. n. pallegar, f. k. popov, and i. r. klebanov, phys. rev. research 3 , 043156 (2021) – published 3 december 2021, ultrasonic chaining of emulsion droplets, mohammed a. abdelaziz, jairo a. díaz a., jean-luc aider, david j. pine, david g. grier, and mauricio hoyos, phys. rev. research 3 , 043157 (2021) – published 3 december 2021, locking of skyrmion cores on a centrosymmetric discrete lattice: onsite versus offsite, satoru hayami and ryota yambe, phys. rev. research 3 , 043158 (2021) – published 6 december 2021, twisted breit-wheeler electron-positron pair creation via vortex gamma photons, zhigang bu, liangliang ji, shaohu lei, huayu hu, xiaomei zhang, and baifei shen, phys. rev. research 3 , 043159 (2021) – published 7 december 2021, toward relaxation asymmetry: heating is faster than cooling, tan van vu and yoshihiko hasegawa, phys. rev. research 3 , 043160 (2021) – published 7 december 2021, chiral emission induced by optical zeeman effect in polariton micropillars, b. real, n. carlon zambon, p. st-jean, i. sagnes, a. lemaître, l. le gratiet, a. harouri, s. ravets, j. bloch, and a. amo, phys. rev. research 3 , 043161 (2021) – published 7 december 2021, kinetic viscoelasticity during early polymer-polymer spinodal dewetting, j. lal, l. b. lurio, d. liang, s. narayanan, s. b. darling, and m. sutton, phys. rev. research 3 , 043162 (2021) – published 8 december 2021, all-optical density downramp injection in electron-driven plasma wakefield accelerators, d. ullmann, p. scherkl, a. knetsch, t. heinemann, a. sutherland, a. f. habib, o. s. karger, a. beaton, g. g. manahan, a. deng, g. andonian, m. d. litos, b. d. o'shea, j. r. cary, m. j. hogan, v. yakimenko, j. b. rosenzweig, and b. hidding, phys. rev. research 3 , 043163 (2021) – published 8 december 2021, complete three-dimensional structure of bi-adsorbed si(110) surface: discovery of heavily reconstructed si(110) substrate, hiroaki aoyama and tadashi abukawa, phys. rev. research 3 , 043164 (2021) – published 8 december 2021, topological and geometric patterns in optimal bang-bang protocols for variational quantum algorithms: application to the x x z model on the square lattice, matthew t. scoggins and armin rahmani, phys. rev. research 3 , 043165 (2021) – published 8 december 2021, unified description of compressive modulus revealing multiscale mechanics of living cells, dongshi guan, yusheng shen, rui zhang, pingbo huang, pik-yin lai, and penger tong, phys. rev. research 3 , 043166 (2021) – published 9 december 2021, directed percolation in nonunitary quantum cellular automata, ramil nigmatullin, elisabeth wagner, and gavin k. brennen, phys. rev. research 3 , 043167 (2021) – published 10 december 2021, dynamic mean-field theory for dense spin systems at infinite temperature, timo gräßer, philip bleicker, dag-björn hering, mohsen yarmohammadi, and götz s. uhrig, phys. rev. research 3 , 043168 (2021) – published 10 december 2021, spin to charge conversion at rashba-split srtio 3 interfaces from resonant tunneling, d. q. to, t. h. dang, l. vila, j. p. attané, m. bibes, and h. jaffrès, phys. rev. research 3 , 043170 (2021) – published 10 december 2021, detection of spin coherence in cold atoms via faraday rotation fluctuations, maheswar swar, dibyendu roy, subhajit bhar, sanjukta roy, and saptarishi chaudhuri, phys. rev. research 3 , 043171 (2021) – published 10 december 2021, nonequilibrium green-kubo relations for hydrodynamic transport from an equilibrium-like fluctuation-response equality, hyun-myung chun, qi gao, and jordan m. horowitz, phys. rev. research 3 , 043172 (2021) – published 10 december 2021, orbitally selective mott phase in electron-doped twisted transition metal-dichalcogenides: a possible realization of the kondo lattice model, amir dalal and jonathan ruhman, phys. rev. research 3 , 043173 (2021) – published 10 december 2021, quantum control of nuclear-spin qubits in a rapidly rotating diamond, a. a. wood, r. m. goldblatt, r. e. scholten, and a. m. martin, phys. rev. research 3 , 043174 (2021) – published 13 december 2021, photoinduced modulation of the excitonic resonance via coupling with coherent phonons in a layered semiconductor, s. mor, v. gosetti, a. molina-sánchez, d. sangalli, s. achilli, v. f. agekyan, p. franceschini, c. giannetti, l. sangaletti, and s. pagliara, phys. rev. research 3 , 043175 (2021) – published 13 december 2021, renormalization group analysis on emergence of higher rank symmetry and higher moment conservation, hongchao li and peng ye, phys. rev. research 3 , 043176 (2021) – published 13 december 2021, fast high-fidelity geometric quantum control with quantum brachistochrones, yang dong, ce feng, yu zheng, xiang-dong chen, guang-can guo, and fang-wen sun, phys. rev. research 3 , 043177 (2021) – published 13 december 2021, emergence of 1/3 magnetization plateau and successive magnetic transitions in zintl phase eu 3 inas 3, ke jia (贾可), cui-xiang wang (王翠香), xuejuan dong (董雪娟), nan chen (陈楠), junzhuang cong (丛君状), guodong li (李国栋), hai l. feng (冯海), huaizhou zhao (赵怀周), and youguo shi (石友国), phys. rev. research 3 , 043178 (2021) – published 13 december 2021, emergent chirality and current generation, satyanu bhadra, shankar ghosh, and shamik gupta, phys. rev. research 3 , 043179 (2021) – published 14 december 2021, kilo-tesla axial magnetic field generation with high intensity spin and orbital angular momentum beams, andrew longman and robert fedosejevs, phys. rev. research 3 , 043180 (2021) – published 14 december 2021, ion acceleration and d-d fusion neutron generation in relativistically transparent deuterated nanowire arrays, a. curtis, r. hollinger, c. calvi, s. wang, s. huanyu, y. wang, a. pukhov, v. kaymak, c. baumann, j. tinsley, v. n. shlyaptsev, and j. j. rocca, phys. rev. research 3 , 043181 (2021) – published 15 december 2021, impossibility to produce arbitrary non-gaussian states using zero-mean gaussian states and partial photon number resolving detection, christos n. gagatsos and saikat guha, phys. rev. research 3 , 043182 (2021) – published 15 december 2021, mn-induced multiple magnetic ground states in sr 3 ( ru 1 − x mn x ) 2 o 7, roshan nepal, lingyi xing, arno meingast, and rongying jin, phys. rev. research 3 , 043183 (2021) – published 16 december 2021, variational quantum anomaly detection: unsupervised mapping of phase diagrams on a physical quantum computer, korbinian kottmann, friederike metz, joana fraxanet, and niccolò baldelli, phys. rev. research 3 , 043184 (2021) – published 16 december 2021, accurate measurement of atomic magnetic moments by minimizing the tip magnetic field in stm-based electron paramagnetic resonance, tom s. seifert, stepan kovarik, pietro gambardella, and sebastian stepanow, phys. rev. research 3 , 043185 (2021) – published 16 december 2021, hydrodynamics of ideal fracton fluids, kevin t. grosvenor, carlos hoyos, francisco peña-benitez, and piotr surówka, phys. rev. research 3 , 043186 (2021) – published 16 december 2021, higher harmonics in complex plasmas with alternating screening, z. a. moldabekov, y. k. aldakul, n. k. bastykova, s. sundar, and a. cangi, phys. rev. research 3 , 043187 (2021) – published 17 december 2021, multimode trapped interferometer with noninteracting bose-einstein condensates, leonardo masi, tommaso petrucciani, alessia burchianti, chiara fort, massimo inguscio, lorenzo marconi, giovanni modugno, niccolò preti, dimitrios trypogeorgos, marco fattori, and francesco minardi, phys. rev. research 3 , 043188 (2021) – published 17 december 2021, chaos in nonlinear random walks with nonmonotonic transition probabilities, digesh chitrakar and per sebastian skardal, phys. rev. research 3 , 043189 (2021) – published 17 december 2021, particle jets in colliding two ultraintense laser pulses of varying frequencies, siddharth tiwary and naveen kumar, phys. rev. research 3 , 043190 (2021) – published 17 december 2021, magnetic and geometric control of spin textures in the itinerant kagome magnet fe 3 sn 2, markus altthaler, erik lysne, erik roede, lilian prodan, vladimir tsurkan, mohamed a. kassem, hiroyuki nakamura, stephan krohns, istván kézsmárki, and dennis meier, phys. rev. research 3 , 043191 (2021) – published 17 december 2021, finding the disjointness of stabilizer codes is np-complete, john bostanci and aleksander kubica, phys. rev. research 3 , 043192 (2021) – published 20 december 2021, higher-order interactions can better optimize network synchronization, per sebastian skardal, lluís arola-fernández, dane taylor, and alex arenas, phys. rev. research 3 , 043193 (2021) – published 20 december 2021, probing ultrafast laser plasma processes inside solids with resonant small-angle x-ray scattering, lennart gaus et al., phys. rev. research 3 , 043194 (2021) – published 20 december 2021, directed motion of membrane proteins under an entropy-driven potential field generated by anchored proteins, yusheng shen, chengjie luo, yan wen, wei he, pingbo huang, hsuan-yi chen, pik-yin lai, and penger tong, phys. rev. research 3 , 043195 (2021) – published 20 december 2021, chaos in coupled kerr-nonlinear parametric oscillators, hayato goto and taro kanao, phys. rev. research 3 , 043196 (2021) – published 20 december 2021, liouvillian spectral collapse in the scully-lamb laser model, fabrizio minganti, ievgen i. arkhipov, adam miranowicz, and franco nori, phys. rev. research 3 , 043197 (2021) – published 21 december 2021, full-zone valley polarization landscape of finite-momentum exciton in transition metal dichalcogenide monolayers, ping-yuan lo, guan-hao peng, wei-hua li, yi yang, and shun-jen cheng, phys. rev. research 3 , 043198 (2021) – published 20 december 2021, machine learning statistical gravity from multi-region entanglement entropy, jonathan lam and yi-zhuang you, phys. rev. research 3 , 043199 (2021) – published 20 december 2021, low-depth quantum state preparation, xiao-ming zhang, man-hong yung, and xiao yuan, phys. rev. research 3 , 043200 (2021) – published 21 december 2021, coexistence of topological and nontopological fermi-superfluid phases, k. thompson, u. zülicke, and j. brand, phys. rev. research 3 , 043201 (2021) – published 21 december 2021, systematic extraction of crystal electric-field effects and quantum magnetic model parameters in triangular rare-earth magnets, christopher a. pocs, peter e. siegfried, jie xing, athena s. sefat, michael hermele, b. normand, and minhyea lee, phys. rev. research 3 , 043202 (2021) – published 21 december 2021, controlled preparation of phases in two-dimensional time crystals, arkadiusz kuroś, rick mukherjee, florian mintert, and krzysztof sacha, phys. rev. research 3 , 043203 (2021) – published 21 december 2021, rougher is more slippery: how adhesive friction decreases with increasing surface roughness due to the suppression of capillary adhesion, feng-chun hsia, steve franklin, pierre audebert, albert m. brouwer, daniel bonn, and bart weber, phys. rev. research 3 , 043204 (2021) – published 21 december 2021, loss-tolerant concatenated bell-state measurement with encoded coherent-state qubits for long-range quantum communication, seok-hyung lee, seung-woo lee, and hyunseok jeong, phys. rev. research 3 , 043205 (2021) – published 21 december 2021, continuous and rapid sound regulation via a compact linear electroacoustic field effect transistor, jingjing ding, xiaole wang, limin gu, senlei li, xudong luo, chunyu zhao, and zhenyu huang, phys. rev. research 3 , 043206 (2021) – published 21 december 2021, observations of existence and instability dynamics of near-zero-dispersion temporal kerr cavity solitons, zongda li, yiqing xu, caleb todd, gang xu, stéphane coen, stuart g. murdoch, and miro erkintalo, phys. rev. research 3 , 043207 (2021) – published 22 december 2021, multi- k spin ordering in cafe 3 ti 4 o 12 stabilized by spin-orbit coupling and further-neighbor exchange, midori amano patino, fabio denis romero, masato goto, takashi saito, fabio orlandi, pascal manuel, attila szabó, paula kayser, ka h. hong, khalid n. alharbi, j. paul attfield, and yuichi shimakawa, phys. rev. research 3 , 043208 (2021) – published 22 december 2021, gauge-invariant quantum circuits for u (1) and yang-mills lattice gauge theories, giulia mazzola, simon v. mathis, guglielmo mazzola, and ivano tavernelli, phys. rev. research 3 , 043209 (2021) – published 22 december 2021, inferring network structures via signal lasso, lei shi, chen shen, libin jin, qi shi, zhen wang, and stefano boccaletti, phys. rev. research 3 , 043210 (2021) – published 22 december 2021, operating a passive on-chip superconducting circulator: device control and quasiparticle effects, dat thanh le, clemens müller, rohit navarathna, arkady fedorov, and t. m. stace, phys. rev. research 3 , 043211 (2021) – published 23 december 2021, quantum algorithms for quantum dynamics: a performance study on the spin-boson model, alexander miessen, pauline j. ollitrault, and ivano tavernelli, phys. rev. research 3 , 043212 (2021) – published 23 december 2021, in-gap band in the one-dimensional two-orbital kanamori-hubbard model with interorbital coulomb interaction, n. aucar boidi, h. fernández garcía, y. núñez-fernández, and k. hallberg, phys. rev. research 3 , 043213 (2021) – published 23 december 2021, low-energy scattering of ultracold atoms by a dielectric nanosphere, t. yamaguchi, d. akamatsu, and r. kanamoto, phys. rev. research 3 , 043214 (2021) – published 27 december 2021, excited-state quantum phase transitions in spin-orbit-coupled bose gases, j. cabedo and a. celi, phys. rev. research 3 , 043215 (2021) – published 27 december 2021, chaos in spin-torque oscillator with feedback circuit, akira kamimaki, tomoyuki kubota, sumito tsunegi, kohei nakajima, tomohiro taniguchi, julie grollier, vincent cros, kay yakushiji, akio fukushima, shinji yuasa, and hitoshi kubota, phys. rev. research 3 , 043216 (2021) – published 27 december 2021, exciton landscape in van der waals heterostructures, joakim hagel, samuel brem, christopher linderälv, paul erhart, and ermin malic, phys. rev. research 3 , 043217 (2021) – published 27 december 2021, gap resonance in the classical dynamics of the current-biased josephson tunnel junctions, dmitri v. averin, phys. rev. research 3 , 043218 (2021) – published 27 december 2021, importance of surface oxygen vacancies for ultrafast hot carrier relaxation and transport in cu 2 o, chiara ricca, lisa grad, matthias hengsberger, jürg osterwalder, and ulrich aschauer, phys. rev. research 3 , 043219 (2021) – published 27 december 2021, optimal probabilistic distillation of quantum coherence, c. l. liu and c. p. sun, phys. rev. research 3 , 043220 (2021) – published 27 december 2021, piezoelectricity in nominally centrosymmetric phases, oktay aktas, moussa kangama, gan linyu, gustau catalan, xiangdong ding, alex zunger, and ekhard k. h. salje, phys. rev. research 3 , 043221 (2021) – published 27 december 2021, attosecond electronic dynamics of core-excited states of n 2 o in the soft x-ray region, nariyuki saito, nicolas douguet, hiroki sannohe, nobuhisa ishii, teruto kanai, yi wu, andrew chew, seunghwoi han, barry i. schneider, jeppe olsen, luca argenti, zenghu chang, and jiro itatani, phys. rev. research 3 , 043222 (2021) – published 27 december 2021, magnon landau levels in the strained antiferromagnetic honeycomb nanoribbons, junsong sun, huaiming guo, and shiping feng, phys. rev. research 3 , 043223 (2021) – published 27 december 2021, ab initio derivation and exact diagonalization analysis of low-energy effective hamiltonians for β ′ − x [ pd ( dmit ) 2 ] 2, kazuyoshi yoshimi, takao tsumuraya, and takahiro misawa, phys. rev. research 3 , 043224 (2021) – published 28 december 2021, effective scattering and efimov physics in the presence of two-body dissipation, lihong zhou and xiaoling cui, phys. rev. research 3 , 043225 (2021) – published 28 december 2021, nonreciprocal frequency conversion with chiral λ -type atoms, lei du, yao-tong chen, and yong li, phys. rev. research 3 , 043226 (2021) – published 29 december 2021, solitonic excitations in the ising anisotropic chain baco 2 v 2 o 8 under large transverse magnetic field, quentin faure, shintaro takayoshi, béatrice grenier, sylvain petit, stéphane raymond, martin boehm, pascal lejay, thierry giamarchi, and virginie simonet, phys. rev. research 3 , 043227 (2021) – published 29 december 2021, intrinsic mechanisms for drive-dependent purcell decay in superconducting quantum circuits, ryo hanai, alexander mcdonald, and aashish clerk, phys. rev. research 3 , 043228 (2021) – published 30 december 2021, emergent stripes of active rotors in shear flows, zhiyuan zhao, boyi wang, shigeyuki komura, mingcheng yang, fangfu ye, and ryohei seto, phys. rev. research 3 , 043229 (2021) – published 30 december 2021, low-symmetry topological materials for large charge-to-spin interconversion: the case of transition metal dichalcogenide monolayers, marc vila, chuang-han hsu, jose h. garcia, l. antonio benítez, xavier waintal, sergio o. valenzuela, vitor m. pereira, and stephan roche, phys. rev. research 3 , 043230 (2021) – published 30 december 2021, two-dimensional oxides assembled by m 4 clusters ( m = b , al, ga, in, cr, mo, and te), yu guo, qiuying du, pengju wang, si zhou, and jijun zhao, phys. rev. research 3 , 043231 (2021) – published 30 december 2021, magnetic blue shift of mott gaps enhanced by double exchange, mohsen hafez-torbati, davide bossini, frithjof b. anders, and götz s. uhrig, phys. rev. research 3 , 043232 (2021) – published 30 december 2021.

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