期刊,中国物理快报（英文版） 2024年卷5期_国家学术搜索

期刊信息/Journal information

中国物理快报（英文版）

出版周期：月刊

国际刊号：0256-307X

电　　话：010-82649490 82649024

邮政编码：100080

地　　址：北京中关村中国科学院物理研究所内（北京603信箱《中国物理快报》编辑部）

中国物理快报（英文版）/Journal Chinese Physics LettersCSCDCSTPCD北大核心SCI

查看更多>>本刊创刊于1985年,是由中国物理学会主办的英文版物理学学术期刊.

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Experimental Investigation of Lee-Yang Criticality Using Non-Hermitian Quantum System

蓝子桁刘文权伍旸叶翔宇...

1-11页

查看更多>>摘要：Lee-Yang theory clearly demonstrates where the phase transition of many-body systems occurs and the asymptotic behavior near the phase transition using the partition function under complex parameters.The complex parameters make the direct investigation of Lee-Yang theory in practical systems challenging.Here we construct a non-Hermitian quantum system that can correspond to the one-dimensional Ising model with imaginary parameters through the equality of partition functions.By adjusting the non-Hermitian parameter,we successfully obtain the partition function under different imaginary magnetic fields and observe the Lee-Yang zeros.We also observe the critical behavior of free energy in vicinity of Lee-Yang zero that is consistent with theoretical prediction.Our work provides a protocol to study Lee-Yang zeros of the one-dimensional Ising model using a single-qubit non-Hermitian system.

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Maxwell Demon and Einstein-Podolsky-Rosen Steering

胡孟军胡晓敏张永生

12-16页

查看更多>>摘要：Research of Maxwell demon and quantum entanglement is important because of its foundational significance in physics and its potential applications in quantum information.Previous studies on the Maxwell demon have primarily focused on thermodynamics,taking into account quantum correlations.Here we consider from another perspective and ask whether quantum non-locality correlations can be simulated by performing work.The Maxwell demon-assisted Einstein-Podolsky-Rosen(EPR)steering is thus proposed,which implies a new type of loophole.The application of Landauer's erasure principle suggests that the only way to close this loophole during a steering task is by continuously monitoring the heat fluctuation of the local environment by the participant.We construct a quantum circuit model of Maxwell demon-assisted EPR steering,which can be demonstrated by current programmable quantum processors,such as superconducting quantum computers.Based on this quantum circuit model,we obtain a quantitative formula describing the relationship between energy dissipation due to the work of the demon and quantum non-locality correlation.The result is of great physical interest because it provides a new way to explore and understand the relationship between quantum non-locality,information,and thermodynamics.

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Direct Observation on H-Elimination Enhancement from C2H4 through Non-Adiabatic Process by Femtosecond Laser Induced Coulomb Explosion

金无维王春成赵晓戈杨译章...

17-22页

查看更多>>摘要：Ethylene,the simplest model of a carbon-carbon double bond system,is pivotal in numerous chemical and biological processes.By employing intense infrared laser pump-probe techniques alongside coincidence measure-ments,we investigate the ultrafast non-adiabatic dynamics involved in the breakage of carbon-carbon double bonds and hydrogen elimination in dissociation of ethylene.Our study entails analyzing the dynamic kinetic en-ergy release spectra to assess three bond-breaking scenarios,movements of nuclei,and structural changes around the carbon atoms.This allows us to evaluate the relaxation dynamics and characteristics of various dissociative states.Notably,we observe a significant rise in the yield of fragments resulting from C-H bond breakage with the delay time extended,suggesting non-adiabatic coupling through conical intersections from C-C bond breakage as a probable cause.

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Random Green's Function Method for Large-Scale Electronic Structure Calculation

汤明发刘畅张爱霞张青云...

23-29页

查看更多>>摘要：We report a linear-scaling random Green's function(rGF)method for large-scale electronic structure calcu-lation.In this method,the rGF is defined on a set of random states and is efficiently calculated by projecting onto Krylov subspace.With the rGF method,the Fermi-Dirac operator can be obtained directly,avoiding the polynomial expansion to Fermi-Dirac function.To demonstrate the applicability,we implement the rGF method with the density-functional tight-binding method.It is shown that the Krylov subspace can maintain at small size for materials with different gaps at zero temperature,including H2O and Si clusters.We find with a simple deflation technique that the rGF self-consistent calculation of H2O clusters at T=0K can reach an error of～1meV per H2O molecule in total energy,compared to deterministic calculations.The rGF method provides an effective stochastic method for large-scale electronic structure simulation.

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Three-Channel Interference Interpretation of Fano Profile

李波李天钧马子茹王希源...

30-34页

查看更多>>摘要：Fano resonance is a ubiquitous phenomenon,and it is commonly interpreted as a two-channel interference of the discrete and continuous channels.The present work investigates the Fano profile from a perspective of the temporal evolution of the wave function.By exciting the atom with a δ pulse and calculating the evolution of the wave function,the Fano formula is deduced.The results clearly show that the Fano resonance is of a three-channel interference,which is different from the traditional understanding.The three channels are revealed as the ground-continuum,ground-discrete-continuum,and a previously unmentioned third channel,i.e.,ground-continuum-discrete-continuum.The present three-channel interpretation can be easily generalized to other physical systems,contributing to a deeper understanding of the Fano profile.

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High-Power Raman Soliton Generation at 1.7 μm in All-Fiber Polarization-Maintaining Erbium-Doped Amplifier

徐子鹏王萱姚传飞杨林京...

35-39页

查看更多>>摘要：An all-fiber polarization maintaining high-power laser system operating at 1.7 μm based on the Raman-induced soliton self-frequency shifting effect is demonstrated.The entirely fiberized system is built by erbium-doped oscillator and two-stage amplifiers with polarization maintaining commercial silica fibers and devices,which can provide robust and stable soliton generation.High-power soliton laser with the average power of 0.28 W,the repetition rate of 42.7 MHz,and pulse duration of 515 fs is generated directly from the main amplifier.Our experiment provides a feasible method for high-power all-fiber polarization maintaining femtosecond laser generation working at 1.7 μm.

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ESM Cloud Toolkit:A Copilot for Energy Storage Material Research

许晶肖睿娟李泓

40-46页

查看更多>>摘要：Searching and designing new materials play crucial roles in the development of energy storage devices.In today's world where machine learning technology has shown strong predictive ability for various tasks,the combi-nation with machine learning technology will accelerate the process of material development.Herein,we develop ESM Cloud Toolkit for energy storage materials based on MatElab platform,which is designed as a convenient and accurate way to automatically record and save the raw data of scientific research.The ESM Cloud Toolkit includes multiple features such as automatic archiving of computational simulation data,post-processing of ex-perimental data,and machine learning applications.It makes the entire research workflow more automated and reduces the entry barrier for the application of machine learning technology in the domain of energy storage materials.It integrates data archive,traceability,processing,and reutilization,and allows individual research data to play a greater role in the era of AI.

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Experimental Investigations of Quasi-Coherent Micro-Instabilities in J-TEXT Ohmic Plasmas

石鹏庄革程芝峰高丽...

47-52页

查看更多>>摘要：Quasi-coherent micro-instabilities is one of the key topics of magnetic confinement fusion.This work focuses on the quasi-coherent spectra of ion temperature gradient(ITG)and trapped-electron-mode instabilities using newly developed far-forward collective scattering measurements within ohmic plasmas in the J-TEXT tokamak.The ITG mode is characterized by frequencies ranging from 30 to 100 kHz and wavenumbers(kθρs)less than 0.3.Beyond a critical plasma density threshold,the ITG mode undergoes a bifurcation,which is marked by a reduction in frequency and an enhancement in amplitude.Concurrently,enhancements in ion energy loss and degradation in confinement are observed.This ground-breaking discovery represents the first instance of direct experimental evidence that establishes a clear link between ITG instability and ion thermal transport.

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Origin of the Disparity between the Stability of Transmutated Mix-Cation and Mix-Anion Compounds

野仕伟耿松源梁汉普张燮...

53-60页

查看更多>>摘要：Transmutation is an efficient approach for material design.For example,ternary compound CuGaSe2 in chalcopyrite structure is a promising material for novel optoelectronic and thermoelectric device applications.It can be considered as formed from the binary host compound ZnSe in zinc-blende structure by cation transmutation(i.e.,replacing two Zn atoms by one Cu and one Ga).While cation-transmutated materials are common,anion-transmutated ternary materials are rare,for example,Zn2AsBr(i.e.,replacing two Se atoms by one As and one Br)is not reported.The physical origin for this puzzling disparity is unclear.In this work,we employ first-principles calculations to address this issue,and find that the distinct differences in stability between cation-transmutated(mix-cation)and anion-transmutated(mix-anion)compounds originate from their different trends of ionic radii as functions of their ionic state,i.e.,for cations,the radius decreases with the increasing ionic state,whereas for anions,the radius increases with the increasing absolute ionic state.Therefore,for mix-cation compounds,the strain energy and Coulomb energy can be simultaneously optimized to make these materials stable.In contrast,for mix-anion systems,minimization of Coulomb energy will increase the strain energy,thus the system becomes unstable or less stable.Thus,the trend of decreasing strain energy and Coulomb energy is consistent in mix-cation compounds,while it is opposite in mix-anion compounds.Furthermore,the study suggests that the stability strategy for mix-anion compounds can be controlled by the ratio of ionic radii r3/r1,with a smaller ratio indicating greater stability.Our work,thus,elucidates the intrinsic stability trend of transmutated materials and provides guidelines for the design of novel ternary materials for various device applications.

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Influence of High-Pressure Induced Lattice Dislocations and Distortions on Thermoelectric Performance of Pristine SnTe

郑博文陈涛孙海瑞杨曼曼...

61-68页

查看更多>>摘要：As a sister compound of PbTe,SnTe possesses the environmentally friendly elements.However,the pristine SnTe compounds suffer from the high carrier concentration,the large valence band offset between the L and ∑positions and high thermal conductivity.Using high-pressure and high-temperature technology,we synthesized the pristine SnTe samples at different pressures and systemically investigated their thermoelectric properties.High pressure induces rich microstructures,including the high-density dislocations and lattice distortions,which serve as the strong phonon scattering centers,thereby reducing the lattice thermal conductivity.For the elec-trical properties,pressure reduces the harmful high carrier concentration,due to the depression of Sn vacancies.Moreover,pressure induces the valence band convergence,reducing the energy separation between the L and ∑positions.The band convergence and suppressed carrier concentration increase the Seebeck coefficient.Thus,the power factors of pressure-sintered compounds do not deteriorate significantly under the condition of decreasing electrical conductivity.Ultimately,for a pristine SnTe compound synthesized at 5 GPa,a higher ZT value of 0.51 is achieved at 750 K,representing a 140％improvement compared to the value of 0.21 obtained using SPS.There-fore,the high-pressure and high-temperature technology is demonstrated as an effectively approach to optimize thermoelectric performance.

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