检索结果-内蒙古大学图书馆

β-delayed two-proton decay of S27 at the proton-drip line

Physical Review C 2021年第6期103卷 L061301-L061301页

作者： G. Z. Shi (石国柱) J. J. Liu (刘嘉健) Z. Y. Lin (林喆阳) H. F. Zhu (朱浩钒) X. X. Xu (徐新星) L. J. Sun (孙立杰) P. F. Liang (梁鹏飞) C. J. Lin (林承键) J. Lee (李晓菁) C. X. Yuan (袁岑溪) S. M. Wang (王思敏) Z. H. Li (李智焕) H. S. Xu (徐瑚珊) Z. G. Hu (胡正国) Y. Y. Yang (杨彦云) R. F. Chen (陈若富) J. S. Wang (王建松) D. X. Wang (王东玺) H. Y. Wu (吴鸿毅) K. Wang (王康) F. F. Duan (段芳芳) Y. H. Lam (蓝乙华) P. Ma (马朋) Z. H. Gao (高志浩) Q. Hu (胡强) Z. Bai (白真) J. B. Ma (马军兵) J. G. Wang (王建国) F. P. Zhong (钟福鹏) C. G. Wu (武晨光) D. W. Luo (罗迪雯) Y. Jiang (蒋颖) Y. Liu (刘洋) D. S. Hou (侯东升) R. Li (李忍) N. R. Ma (马南茹) W. H. Ma (马维虎) G. M. Yu (余功明) D. Patel S. Y. Jin (金树亚) Y. F. Wang (王煜峰) Y. C. Yu (余悦超) Q. W. Zhou (周清武) P. Wang (王鹏) L. Y. Hu (胡力元) X. Wang (王翔) H. L. Zang (臧宏亮) P. J. Li (李朋杰) Q. R. Gao (高祺锐) H. Jian (简豪) S. X. Zha (查思贤) F. C. Dai (戴凡超) R. Fan (范锐) Q. Q. Zhao (赵青青) L. Yang (杨磊) P. W. Wen (温培威) F. Yang (杨峰) H. M. Jia (贾会明) G. L. Zhang (张高龙) M. Pan (潘敏) X. Y. Wang (汪小雨) H. H. Sun (孙浩瀚) X. H. Zhou (周小红) Y. H. Zhang (张玉虎) M. Wang (王猛) M. L. Liu (柳敏良) H. J. Ong (王惠仁) W. Q. Yang (杨维青) CAS Key Laboratory of High Precision Nuclear Spectroscopy Institute of Modern Physics Chinese Academy of Sciences Lanzhou 730000 China School of Nuclear Science and Technology Lanzhou University Lanzhou 730000 China School of Nuclear Science and Technology University of Chinese Academy of Sciences Beijing 100049 China School of Physics and Engineering Zhengzhou University Zhengzhou 450001 China Department of Physics The University of Hong Kong Hong Kong China Department of Nuclear Physics China Institute of Atomic Energy Beijing 102413 China Advanced Energy Science and Technology Guangdong Laboratory Huizhou 516003 China School of Physics and Astronomy Shanghai Jiao Tong University Shanghai 200240 China College of Physics and Technology Guangxi Normal University Guilin 541004 China Sino-French Institute of Nuclear Engineering and Technology Sun Yat-Sen University Zhuhai 519082 China State Key Laboratory of Nuclear Physics and Technology School of Physics Peking University Beijing 100871 China College of Science Huzhou University Huzhou 313000 China Shanghai Institute of Applied Physics Chinese Academy of Sciences Shanghai 201800 China Institute of Modern Physics Fudan University Shanghai 200433 China Fundamental Science on Nuclear Safety and Simulation Technology Laboratory Harbin Engineering University Harbin 150001 China Department of Physics Sardar Vallabhbhai National Institute of Technology Surat 395007 India School of Physics and Astronomy Yunnan University Kunming 650091 China School of Physical Science and Technology Southwest University Chongqing 400044 China School of Physics and Nuclear Energy Engineering Beihang University Beijing 100191 China RCNP Osaka University Osaka 567-0047 Japan Joint Department for Nuclear Physics Lanzhou University and Institute of Modern Physics CAS Lanzhou 730000 China

The β-delayed two-proton (β2p) decay of S27 was studied using a state-of-the-art silicon array and Clover-type HPGe detectors. An energy peak at 6372(15) keV with a branching ratio of 2.4(5)% in the decay-energy spectrum was identified as a two-proton transition via the isobaric-analog state in P27 to the ground state of Al25 in the β decay of S27. Two-proton angular correlations were measured by the silicon array to study the mechanism of two-proton emission. Based on experimental results and Monte Carlo simulations, it was found that the main mechanism for the emission of β2p by S27 is of sequential nature.

关键词： Beta decay Lifetimes & widths nuclear structure & decays Proton emission 20 ≤ A ≤ 38

来源：评论

学校读者我要写书评

暂无评论

Charge and spin state of dilute Fe in NaCl and LiF

引用

Physical Review B 2022年第17期106卷 174108-174108页

作者： H. P. Gunnlaugsson A. Mokhles Gerami H. Masenda S. Olafsson R. Adhikari K. Johnston K. Naicker G. Peters J. Schell D. Zyabkin K. Bharuth-Ram P. Krastev R. Mantovan D. Naidoo I. Unzueta ISOLDE Collaboration University of Iceland Dunhaga 3 IS-107 Reykjavík Iceland School of Particles and Accelerators Institute for Research in Fundamental Sciences (IPM) P.O. Box 19395-5531 Tehran Iran European Organization for Nuclear Research (CERN) CH-1211 Geneva Switzerland School of Physics University of the Witwatersrand Johannesburg 2050 South Africa Institute for Semiconductor and Solid State Physics Johannes Kepler University Altenbergerstr. 69 Linz Austria School of Chemistry and Physics University of KwaZulu-Natal Durban 4001 South Africa Institute for Materials Science and Center for Nanointegration Duisburg-Essen (CENIDE) University of Duisburg-Essen 45141 Essen Germany Chair Materials for Electrical Engineering and Electronics Institute of Materials Science and Engineering Institute of Micro and Nanotechnologies MacroNano® TU Ilmenau Gustav-Kirchhoff-Strasse 5 98693 Ilmenau Germany Institute for Nuclear Research and Nuclear Energy Bulgarian Academy of Sciences 72 Tsarigradsko Chaussee Boulevard Sofia 1784 Bulgaria CNR-IMM Unit of Agrate Brianza Via Olivetti 2 I-20864 Agrate Brianza (MB) Italy Department of Applied Physics School of Engineering Gipuzkoa University of the Basque Country (UPV/EHU) Plaza Europa 1 20018 San Sebastian Spain

There is an apparent mismatch between electron paramagnetic resonance and Mössbauer spectroscopy results on the charge and spin states of dilute Fe impurities in NaCl; Mössbauer spectroscopy data have been interpreted in terms of high-spin Fe2+, while electron paramagnetic resonance studies suggest low-spin Fe1+. In the present study, the charge and spin states of dilute substitutional Fe impurities in NaCl and LiF have been investigated with Mn57→Fe57 emission Mössbauer spectroscopy. A scheme is proposed which takes into account the effects of nearest-neighbor distances and electronegativity difference of the host atoms on the Mössbauer isomer shift and allows for the unequivocal differentiation between high-spin Fe2+ and high/low-spin Fe1+ in Mössbauer spectroscopy. From these considerations, the Mössbauer results are found to be consistent with dilute Fe impurities in NaCl and LiF in a low-spin Fe1+ state. These conclusions are supported by theoretical calculations of isomer shifts and formation energies based on the density-functional theory. The experimental results furthermore suggest that charge compensation of dilute Mn2+ dopants in NaCl and LiF is achieved by Na vacancies and F− interstitials, respectively.

关键词： Defects Impurities Spin Density functional calculations Mössbauer emission spectroscopy

来源：评论

学校读者我要写书评

暂无评论

Polarization entanglement enabled by orthogonally stacked van der Waals NbOCl2 crystals

arXiv

引用

arXiv 2024年

作者： Guo, Qiangbing Wu, Yun-Kun Zhang, Di Zhang, Qiuhong Guo, Guang-Can Alù, Andrea Ren, Xi-Feng Qiu, Cheng-Wei Department of Electrical and Computer Engineering National University of Singapore Singapore Singapore Centre for Advanced 2D Materials Graphene Research Centre National University of Singapore Singapore Singapore CAS Key Laboratory of Quantum Information CAS Synergetic Innovation Center of Quantum Information & Quantum Physics University of Science and Technology of China Hefei China Hefei National Laboratory University of Science and Technology of China Hefei China Photonics Initiative Advanced Science Research Center City University of New York New York United States Physics Program Graduate Center City University of New York New York United States The Key Laboratory of Weak-Light Nonlinear Photonics Ministry of Education School of Physics TEDA Applied Physics Institute Nankai University Tianjin China School of Chemistry and Materials Science Hangzhou Institute for Advanced Study University of Chinese Academy of Sciences Hangzhou China

Polarization entanglement holds significant importance for photonic quantum technologies. Recently emerging subwavelength nonlinear quantum light sources, e.g., GaP and LiNbO3 thin films, benefiting from the relaxed phase-matching constraints and volume confinement, has shown intriguing properties, such as high-dimensional hyperentanglement and robust entanglement anti-degradation. Van der Waals (vdW) NbOCl2 crystal, renowned for its superior optical nonlinearities, has emerged as one of ideal candidates for ultrathin quantum light sources [Nature 613, 53 (2023)]. However, polarization-entanglement is inaccessible in NbOCl2 crystal due to its unfavorable nonlinear susceptibility tensor. Here, by leveraging the twist-stacking degree of freedom inherently in vdW systems, we showcase the preparation of tunable polarization entanglement and quantum Bell states. Our work not only provides a new and tunable polarization-entangled vdW photon-pair source, but also introduces a new knob in engineering the entanglement state of quantum light at the nanoscale. © 2024, CC BY-NC-ND.

关键词： Van der Waals forces

来源：评论

学校读者我要写书评

暂无评论

Five-body resonances in He8 and C8 using the complex scaling method

引用

Physical Review C 2021年第4期104卷 044306-044306页

作者： Takayuki Myo Myagmarjav Odsuren Kiyoshi Katō General Education Faculty of Engineering Osaka Institute of Technology Osaka Osaka 535-8585 Japan Research Center for Nuclear Physics (RCNP) Osaka University Ibaraki 567-0047 Japan School of Engineering and Applied Sciences Nuclear Research Centre National University of Mongolia Ulaanbaatar 210646 Mongolia Nuclear Reaction Data Centre Faculty of Science Hokkaido University Sapporo 060-0810 Japan

We study many-body resonances in the neuron-rich He8 and the mirror proton-rich C8 using the He4+N+N+N+N five-body model with the isospin T=2 system. Resonances are described with the complex energy eigenvalues as the Gamow states using the complex scaling method. In He8, we obtain five states in which four states are resonances, and in C8 all five states are resonances. We discuss the isospin-symmetry breaking dynamically induced by the Coulomb interaction in the energy spectra and decay widths of the resonances in two mirror nuclei. We predict the resonance energies and decay widths for the future experiments. We also investigate the configurations of valence nucleons above He4 in two nuclei with the jj coupling scheme, and all the states dominantly have the p-shell configurations. From the configuration mixing, He8 and C8 give the similar results, which indicates the good symmetry in two nuclei.

关键词： Cluster models Energy levels & level densities nuclear structure & decays

来源：评论

学校读者我要写书评

暂无评论

Terahertz chiral photonic-crystal cavities with broken time-reversal symmetry

arXiv

引用

arXiv 2024年

作者： Tay, Fuyang Sanders, Stephen Baydin, Andrey Song, Zhigang Welakuh, Davis M. Alabastri, Alessandro Rokaj, Vasil Dag, Ceren B. Kono, Junichiro Department of Electrical and Computer Engineering Rice University HoustonTX77005 United States Applied Physics Graduate Program Smalley–Curl Institute Rice University HoustonTX77005 United States Smalley–Curl Institute Rice University HoustonTX77005 United States John A. Paulson School of Engineering and Applied Sciences Harvard University CambridgeMA02139 United States Max Planck Institute for The Structure and Dynamics of Matter Luruper Chaussee 149 Hamburg22761 Germany ITAMP Harvard-Smithsonian Center for Astrophysics CambridgeMA02138 United States Department of Physics Harvard University CambridgeMA02138 United States Department of Physics Villanova University VillanovaPA19085 United States Department of Physics and Astronomy Rice University HoustonTX77005 United States Department of Materials Science and NanoEngineering Rice University HoustonTX77005 United States

Strong coupling between matter and vacuum electromagnetic fields in a cavity can induce novel quantum phases in thermal equilibrium via symmetry breaking. Particularly, coupling with circularly polarized fields can break time-reversal symmetry, leading to topological modifications in the band structure. Therefore, chiral optical cavities that host chiral vacuum fields are being sought, especially in the terahertz (THz) frequency range, where various large-oscillator-strength resonances exist. Here, we present a novel approach to achieving THz chiral photonic-crystal cavities (PCCs) with high-quality factors (>400) using a magnetoplasma in a lightly doped semiconductor. Numerical simulations of an optimized structure based on InSb in a small perpendicular magnetic field (∼0.2 T) show chiral cavity resonances with near-perfect ellipticity at the surfaces of the central dielectric layer, where one can place atomically thin materials like monolayer graphene. We theoretically estimate an energy gap on the order of 1 meV in graphene when coupled to our proposed chiral cavity, which is potentially measurable in experiments. These THz chiral PCCs offer a promising platform for exploring new phases in cavity-dressed condensed matter with broken time-reversal symmetry. Copyright © 2024, The Authors. All rights reserved.

关键词： Crystal symmetry

来源：评论

学校读者我要写书评

暂无评论

Studies of laser-plasma interaction physics with low-density targets for direct-drive inertial confinement fusion on the Shenguang III prototype

引用

Matter and Radiation at Extremes 2021年第2期6卷 54-66页

作者： V.T.Tikhonchuk T.Gong N.Jourdain O.Renner F.P.Condamine K.Q.Pan W.Nazarov L.Hudec J.Limpouch R.Liska M.Krus F.Wang D.Yang S.W.Li Z.C.Li Z.Y.Guan Y.G.Liu T.Xu X.S.Peng X.M.Liu Y.L.Li J.Li T.M.Song J.M.Yang S.E.Jiang B.H.Zhang W.Y.Huo G.Ren Y.H.Chen W.Zheng Y.K.Ding K.Lan S.Weber ELI-Beamlines Institute of PhysicsCzech Academy of Sciences25241 Dolni BrezanyCzech Republic Centre Lasers Intenses et Applications University of Bordeaux-CNRS-CEA33405 TalenceFrance Laser Fusion Research Center China Academy of Engineering PhysicsMianyang 621900China Institute of Plasma Physics Czech Academy of Sciences18200 PragueCzech Republic Independent Foam Target Supplier CarnoustieDD76DPUnited Kingdom Faculty of Nuclear Sciences and Physical Engineering Czech Technical University in Prague11519 PragueCzech Republic Institute of Applied Physics and Computational Mathematics Beijing 100088China Center for Applied Physics and Technology Peking UniversityBeijing 100871China School of Science Xi’an Jiaotong UniversityXi’an 710049China

The physics of laser-plasma interaction is studied on the Shenguang III prototype laser facility under conditions relevant to inertial confinement fusion designs.A sub-millimeter-size underdense hot plasma is created by ionization of a low-density plastic foam by four high-energy(3.2 kJ)laser *** interaction beam is fired with a delay permitting evaluation of the excitation of parametric instabilities at different stages of plasma *** diagnostics are used for plasma characterization,scattered radiation,and accelerated *** experimental results are analyzed with radiation hydrodynamic simulations that take account of foam ionization and *** measured level of stimulated Raman scattering is almost one order of magnitude larger than that measured in experiments with gasbags and hohlraums on the same installation,possibly because of a greater plasma *** amplification is achieved in high-intensity speckles,indicating the importance of implementing laser temporal smoothing techniques with a large bandwidth for controlling laser propagation and absorption.

关键词： density. interaction scattered

来源：评论

学校读者我要写书评

暂无评论

Testing the data framework for an AI algorithm in preparation for high data rate X-ray facilities

Testing the data framework for an AI algorithm in preparatio...

引用

IEEE/ACM Annual Workshop on Large-scale Experiment-in-the-Loop Computing (XLOOP)

作者： Hongwei Chen Sathya R. Chitturi Rajan Plumley Lingjia Shen Nathan C. Drucker Nicolas Burdet Cheng Peng Sougata Mardanya Daniel Ratner Aashwin Mishra Chun Hong Yoon Sanghoon Song Matthieu Chollet Gilberto Fabbris Mike Dunne Silke Nelson Mingda Li Aaron Lindenberg Chunjing Jia Youssef Nashed Arun Bansil Sugata Chowdhury Adrian E. Feiguin Joshua J. Turner Jana B. Thayer Linac Coherent Light Source SLAC National Accelerator Laboratory Menlo Park USA Stanford Institute for Materials and Energy Sciences Stanford University Stanford USA Department of Physics Northeastern University Boston USA Department of Materials Science and Engineering Stanford University Stanford USA Department of Physics Carnegie Mellon University Pittsburgh USA School of Engineering and Applied Sciences Harvard University Cambridge USA Department of Physics and Astrophysics Howard University Washington USA Advanced Photon Source Argonne National Laboratory Argonne USA Department of Nuclear Science & Engineering The Massachusetts Institute of Technology Cambridge USA

ISBN: (纸本)9781665473613

The advent of next-generation X-ray free electron lasers will be capable of delivering X-rays at a repetition rate approaching 1 MHz continuously. This will require the development of data systems to handle experiments at these type of facilities, especially for high throughput applications, such as femtosecond X-ray crystallography and X-ray photon fluctuation ***, we demonstrate a framework which captures single shot X-ray data at the LCLS and implements a machine-learning algorithm to automatically extract the contrast parameter from the collected data. We measure the time required to return the results and assess the feasibility of using this framework at high data volume. We use this experiment to determine the feasibility of solutions for ‘live’ data analysis at the MHz repetition rate.

关键词： Fluctuations Volume measurement Free electron lasers X-ray lasers Machine learning Throughput Time measurement

来源：评论

学校读者我要写书评

暂无评论

Quantifying Quantum Entanglement in Two-Qubit Mixed State from Connected Correlator

SSRN

引用

SSRN 2023年

作者： Guo, Xingyu Ma, Chen-Te Guangdong Provincial Key Laboratory of Nuclear Science Institute of Quantum Matter South China Normal University Guangdong Guangzhou510006 China Guangdong-Hong Kong Joint Laboratory of Quantum Matter Southern Nuclear Science Computing Center South China Normal University Guangdong Guangzhou510006 China Asia Pacific Center for Theoretical Physics Pohang University of Science and Technology Gyeongsangbuk-do Pohang37673 Korea Republic of School of Physics and Telecommunication Engineering South China Normal University Guangdong Guangzhou510006 China The Laboratory for Quantum Gravity and Strings Department of Mathematics and Applied Mathematics University of Cape Town Private Bag Rondebosch7700 South Africa

We quantify Quantum Entanglement using a connected correlation matrix. Quantifying the degree of entanglement between particles requires entanglement measures. The connected correlation matrix is used to quantify Quantum Entanglement, suggesting that it encompasses all necessary entanglement measures. Our study suggests starting with a three-qubit state and obtaining a mixed state by partial tracing over one qubit. By considering the connected correlation, we aim to eliminate the non-connected sector and capture all relevant entanglement degrees. We classify mixed states and demonstrate that separable states exhibit the lowest correlation within each classified class. We then show that the entanglement measure monotonically increases for the correlation measure. This suggests that the connected correlation effectively quantifies Quantum Entanglement. We compare the results to the logarithmic negativity, another measure of entanglement. Our findings indicate that the negativity increases with the correlation measure, but it is not monotonic. Finally, we propose that interpreting Quantum Entanglement from a local perspective is possible, considering that the observable is a vector with locality but violates freedom of choice. © 2023, The Authors. All rights reserved.

关键词： Quantum entanglement

来源：评论

学校读者我要写书评

暂无评论

Cavity-mediated superthermal phonon correlations in the ultrastrong coupling regime

arXiv

引用

arXiv 2024年

作者： Kim, Dasom Hou, Jin Lee, Geon Agrawal, Ayush Kim, Sunghwan Zhang, Hao Bao, Di Baydin, Andrey Wu, Wenjing Tay, Fuyang Huang, Shengxi Chia, Elbert E.M. Kim, Dai-Sik Seo, Minah Mohite, Aditya D. Hagenmüller, David Kono, Junichiro Applied Physics Graduate Program Smalley–Curl Institute Rice University HoustonTX77005 United States Department of Electrical and Computer Engineering Rice University HoustonTX77005 United States Department of Materials Science and NanoEngineering Rice University HoustonTX77005 United States Sensor System Research Center Korea Institute of Science and Technology Seoul02792 Korea Republic of Department of Physics and Astronomy Seoul National University Seoul08826 Korea Republic of Department of Chemical and Biomolecular Engineering Rice University Houston77005 United States Ulsan44919 Korea Republic of Division of Physics and Applied Physics School of Physical and Mathematical Sciences Nanyang Technological University Singapore637371 Singapore Smalley–Curl Institute Rice University HoustonTX77005 United States Rice Advanced Materials Institute Rice University HoustonTX77005 United States KU–KIST Graduate School of Converging Science and Technology Korea University Seoul02841 Korea Republic of Université de Strasbourg CNRS Strasbourg67200 France Department of Physics and Astronomy Rice University HoustonTX77005 United States

Phonons, or vibrational quanta, are behind some of the most fundamental physical phenomena in solids, including superconductivity, Raman processes, and broken-symmetry phases. It is therefore of fundamental importance to find ways to harness phonons for controlling these phenomena and developing novel quantum technologies. However, the majority of current phonon control techniques rely on the use of intense external driving fields or strong anharmonicities, which restricts their range of applications. Here, we present a scheme for controlling the intensity fluctuations in phonon emission at room temperature based on multimode ultrastrong light–matter coupling. The multimode ultrastrong coupling regime is achieved by coupling two optical phonon modes in lead halide perovskites to an array of nanoslots, which operates as a single-mode cavity. The extremely small mode volume of the nanoslots enables unprecedented coupling strengths in a cavity phonon-polariton system. In the far-detuned, low-cavity-frequency regime, we demonstrate that the nanoslot resonator mediates an effective coupling between the phonon modes, resulting in superthermal phonon bunching in thermal equilibrium, both within the same mode and between different modes. Experimental results are in good agreement with a multimode Hopfield model. Our work paves the way for the tailoring of phonons to modify charge and energy transport in perovskite materials, with potential applications in light-collecting or emitting devices. Copyright © 2024, The Authors. All rights reserved.

关键词： Perovskite

来源：评论

学校读者我要写书评

暂无评论

Radiative hadronization: Photon emission at hadronization from quark-gluon plasma

引用

Physical Review C 2022年第3期106卷 034906-034906页

作者： Hirotsugu Fujii Kazunori Itakura Katsunori Miyachi Chiho Nonaka Institute of Physics University of Tokyo Komaba Tokyo 153-8902 Japan Nagasaki Institute of Applied Science Nagasaki 851-0193 Japan KEK Theory Center IPNS KEK Tsukuba 305-0801 Japan Department of Physics Nagoya University Nagoya 464-8602 Japan Physics Program Graduate School of Advanced Science and Engineering Hiroshima University Higashi-Hiroshima 739-8526 Japan Kobayashi-Maskawa Institute for the Origin of Particles and the Universe (KMI) Nagoya University Nagoya 464-8602 Japan

We investigate photon emission at the hadronization stage from a quark-gluon plasma created in relativistic heavy-ion collisions. A recombination-model picture suggests that a quark and an antiquark bind into a meson state in hadronization, which would apparently violate the energy conservation if there is nothing else involved. We consider here a hadronization process where the recombination accompanies a photon emission. This is an analog of the “radiative recombination” known in plasma physics, such as e−+p+→H0+γ, which occurs when an electromagnetic plasma goes back to a neutral atomic gas. The “radiative hadronization” picture will bring about (i) an enhancement of the photon yield, (ii) significant flow of photons similar to that of hadrons, and (iii) the photon transverse momentum (pT) distribution with a thermal profile whose effective temperature is given by the blue-shifted temperature of quarks. Here as a simplest and phenomenological realization of the radiative hadronization, we modify the recombination model to involve a photon emission and evaluate the photon yield with this modified model. Adding this contribution to the direct photon yield along with the thermal photon contribution calculated with a hydrodynamic model and a parametrized contribution of prompt photons, we study the pT spectrum and elliptic flow of the photons produced in heavy-ion collisions at energies available at the BNL Relativistic Heavy Ion Collider and CERN Large Hadron Collider.

关键词： Collective flow Hydrodynamic models Photon, lepton & quark production QCD phase transitions Quark-gluon plasma Relativistic heavy-ion collisions

来源：评论

学校读者我要写书评

暂无评论

建议与咨询留下您的常用邮箱和电话号码，以便我们向您反馈解决方案和替代方法

时间限定

文献类型

馆藏选择

核心期刊

语言

文献类型

帮助

文字说明：

检索规则说明：

检索范例：

分类表

所选分类

限定检索结果

文献类型

馆藏范围

日期分布

学科分类号

主题

机构

作者

语言

请选择保存的检索档案：

请选择收藏分类：

通借通还

建议与咨询 留下您的常用邮箱和电话号码，以便我们向您反馈解决方案和替代方法

时间限定

文献类型

馆藏选择

核心期刊

语言

文献类型

帮助

文字说明：

检索规则说明：

检索范例：

分类表

所选分类

限定检索结果

文献类型

馆藏范围

日期分布

学科分类号

主题

机构

作者

语言

请选择保存的检索档案： 新增检索档案 确定 取消

请选择收藏分类： 新增自定义分类 确定 取消

通借通还

建议与咨询留下您的常用邮箱和电话号码，以便我们向您反馈解决方案和替代方法

请选择保存的检索档案：

请选择收藏分类：