山西大学激光光谱研究所

1. Tunable accordion optical lattice for precise control of Rydberg atom interactions in magneto-optical traps (MOTs).

Hao Zhang*, Ying Miao,Yifei Cao, Xue Liang, Mingyong Jing, Linjie Zhan

Review of Scientific Instruments (2025)96, 033201

2. Trap loss spectroscopy of ultra-cold Rydberg atoms involved in microwave fields.

Yifei Cao, Hao Zhang, Linjie Zhang*, Liantuan Xiao, Suotang Jia

Optics Express (2025)33(4),7753

1. Rydberg atom electric field sensing for metrology, communication and hybrid quantum systems.

Hao Zhang, Yu Ma, Kaiyu Liao, Wenguang Yang, Zongkai Liu, Dongsheng Ding, Hui Yan,Wenhui Li, Linjie Zhang

Science Bulletin (2024)69, 1515–1535

2. Radio frequency electric field-enhanced sensing based on the Rydberg atom-based superheterodyne receiver.

Wenguang Yang, Minyong Jing, Hao Zhang, Linjie Zhang*, Liantuan Xiao,  Suotang Jia

Optics Letters (2024)49(11), 2938

3.  Image Transmission Utilizing Amplitude Modulation in Rydberg Atomic Antenna.

Peng Zhang , Shaoxin Yuan , Mingyong Jing , Jinpeng Yuan , Hao Zhang , and Linjie Zhang

IEEE Photonics Journal  (2024)16(2), 3000307

4. Isotropic antenna based on Rydberg atoms.

Shaoxin Yuan, MingYong Jing, Hao Zhang, Linjie Zhang, Liantuan Xiao, Suotang Jia

Optics Express (2024)32(5),8379

1. Quantum scaling atomic superheterodyne receiver.

Peng Zhang, Mingyong Jing*, Zheng Wang, Yan Peng, Shaoxin Yuan, Hao Zhang, Liantuan Xiao, Suotang Jia, Linjie Zhang

EPJ Quantum Technology (2023) 10, 39

2. Noise analysis of the atomic superheterodyne receiver based on flat-top laser beams.

Zheng Wang, Mingyong Jing*, Peng Zhang, Shaoxin Yuan, Hao Zhang, Linjie Zhang, Liantuan Xiao, Suotang Jia

Optics Express (2023)31(12),19909-19917

3. Enhancing the Sensitivity of Atom-Based Microwave-Field Electrometry Using a Mach-Zehnder. Interferometer.

Wenguang Yang, Minyong Jing, Hao Zhang*, Linjie Zhang*, Liantuan Xiao,Suotang Jia

Physical Review Applied  (2023)19, 064021

4. Microwave Electric Fields Measurement with One-dimensional Standing-wave Fields Based on Rydberg Atoms.

Ke Li, Jianfei Tian, Mingyong Jing, Linjie Zhang

Acta Photonica Sinica (2023)52(9),0902001

5. Atom-based power-frequency electric field measurement using the radio-frequency-modulated Rydberg spectroscopy.

Weixin Liu, Linjie Zhang*,Tao Wang*

Chinese Physics B  (2023)32, 053203

6.Precision Measurement of Electric Fields Based on Rydberg Atoms.

Yanjie Tong, Hongmei Yan , Mingyong Jing, Hao Zhang, Linjie Zhang*

Navigation and Control (2023)21(5/6),163

1. Dephasing effect of Rydberg states on trap loss spectroscopy of cold atoms.

Yifei Cao, Wenguang Yang, Hao Zhang, Mingyong Jing, Weibin Li, Linjie Zhang* , Liantuan Xiao, Suotang Jia

Journal of the Optical Society of America B (2022)39(8),2032

2. Theoretical Investigation on the Mechanism and Law of Broadband Terahertz Wave Detection Using Rydberg Quantum State.

Yanchen Zhou , Ruijie Peng, Jinbiao Zhang, Linjie Zhang*, Zhenfei Song*, Zhigang Feng*,Yan Peng*

IEEE Photonics Journal (2022) 14(3), 5931808

3.  Atom-Based Vector Measurement of Near Field Scattering Field of Radio Frequency Identification Tag.

Shengyuan Ren, Mingyong Jing, Hao Zhang, Xiaobo Wang, Linjie Zhang*

Spectroscopy and Spectral Analysis (2022)42(1), 298-303

4. Quantum Sensing of Microwave Electric Fields Based on Rydberg Atoms.

Linjie Zhang*, Mingyong Jing, Hao Zhang

Journal of Shanxi University (2022) 45(3),712-722

5. Noise Conversion of a Mode-cleaner Cavity and Noise Analysis of Output Fields.

Xiaohui Wang,Hongmei Yan, Wenguang Yang, Mingyong Jing, Hao Zhang, Linjie Zhang*

Acta Photonica Sinica (2022)51(4),0414002

1. High bandwidth laser frequency locking for wideband noise suppression.

Mingyong Jing*, Peng Zhang,Shaoxin Yuan, Linjie Zhang, Liantuan xiao and Suotang Jia

Optics Express (2021) 29(5),7916-7924

1.  Atomic superheterodyne receiver based on microwave-dressed Rydberg spectroscopy.

Mingyong Jing, Ying Hu, Jie Ma, Hao Zhang, Linjie Zhang*, Liantuan Xiao*, Suotang Jia

Nature Physics (2020) 16 ,911–915

2.  Highly sensitive detection of Rydberg atoms with fluorescence loss spectrum in cold atoms.

Xuerong Shi, Hao Zhang*, Mingyong Jing, Linjie Zhang, Liantuan Xiao,Suotang Jia

Chinese Physics B  (2020) 29(1),013201

1. Detuning radio-frequency electrometry using Rydberg atoms in a room-temperature vapor cell

Linjie Zhang*, Yue Jia, Mingyong Jing, Liping Guo, Hao Zhang,Liantuan Xiao, and Suotang Jia

Laser Physics (2019) 29,035701

2. Non-crossover sub-Doppler DAVLL in selective reflection scheme.

Lin-Jie Zhang, Hao Zhang, Yan-Ting Zhao*,Lian-Tuan Xiao, and Suo-Tang Jia

Chinese Physics B  (2019) 28(8), 084211

1. Interplay between optical pumping and Rydberg EIT in magnetic fields.

Linjie Zhang*, Shanxia Bao, Hao Zhang,Georg Raiithel,Jianming Zhao,Liantuan Xiao,and Suotang Jia

Optics Express (2018) 26(23),29931-29943

2. Vapor cell geometry effect on Rydberg atom-based microwave electric field measurement.

Linjie Zhang*, Jiasheng Liu, Yue Jia, Hao Zhang, Zhenfei Song, and Suotang Jia.

Chinese Physics B 27, (2018) 033201    

3. 超冷里德堡原子的俘获损耗光谱

王丽，张好*，张临杰

量子光学学报（2018） 4(2),178-183   

4. Rydberg原子的电磁诱导透明光谱的噪声转移特性    

贾玥，陈肖含，张好，张临杰*，肖连团，贾锁堂

物理学报 (2018) 67(21),213201

1.  Quantum-Based Determination of Antenna Finite Range Gain by Using Rydberg Atoms.

Zhenfei Song, Zhigang Feng, Xinmeng Liu, Dabo Li, Hao Zhang, Jiasheng Liu, Linjie Zhang*

IEEE antennas and wireiess propagation letters (2017) 16

2.Tunable frequency stabilization to Zeeman sublevel transitions between an intermediate state and Rydberg states.

Shanxia Bao, Hao Zhang,Jian Zhou, Linjie Zhang*,Jianming Zhao, Liantuan Xiao,and Suotang Jia

Laser Physics (2016) 27(1),015701

3. 基于量子相干效应的无芯射频识别标签的空间散射场测量

闫丽云, 刘家晟, 张好, 张临杰*, 肖连团, 贾锁堂

物理学报 (2017) 66(24),243201

1.  Polarization spectra of Zeeman sublevels in Rydberg electromagnetically induced transparency.

Shanxia Bao,Hao Zhang,Jian Zhou,Linjie Zhang*,Jianming Zhao, Liantuan Xiao,and Suotang Jia

Physical Review A (2016) 94, 043822(6)

2.  Spatial distribution measurement of the microwave electric field strength via the Autler-Townes effect of Rydberg atom.

Liu Jiasheng, Zhang hao,Song Zhenfei, Zhang Linjie* ,Jia Suotang

IEEE Xplore 978-1-4673-8762-0

1. Splitting of an Electromagnetically Induced Transparency Window of a Cascade System with 133Cs

Rydberg Atoms in a Static Magnetic Field.

Shanxia Bao, Wenguang Yang, Hao Zhang, Linjie Zhang*, Jianming Zhao, and Suotang Jia

Journal of the Physical Society of Japan (2015) 84,104301(5)

2.  铯47D精细能级超冷里德堡原子自由演化的动力学研究.

段俊毅,王勇,张临杰* ,李昌勇,赵建明,贾锁堂

物理学报 (2015) 64(2),023201(5)