Changzhao PAN Associate researcher
email: pancz@sustech.edu.cn
Office:Room 316, International Quantum Academy
Research Field:4K pulse tube cryocooler, low temperature measurement and control, ultra-low-temperature refrigerators
Essential Information
Name:Changzhao Pan
Position:Associate researcher
Highest Degree:Doctor of Philosophy in Engineering
Telephone(office):N/A
Office:Room 316, Futian International Quantum Academy
Email:pancz@sustech.edu.cn
Research Field:4K pulse tube cryocooler, low temperature measurement and control, ultra-low-temperature refrigerators
Educational Background
2011.09-2016.06, Ph.D. in Refrigeration and Cryogenic Engineering, Technical Institute of Physics and Chemistry Chinese Academy of Sciences
2007.09-2011.06, Bachelor in Thermal Energy and Power Engineering, Shandong University
Working Experience
2021.09—present Associate Researcher, Institute for Quantum Science and Engineering, Southern University of Science and Technology
2019.09-2021.08 Postdoc in Laboratoire national de métrologie et d'essais-Conservatoire national des arts et métiers (Marie Skłodowska-Curie Individual Fellowships)
2018.04-2019.08 Postdoc in Laboratoire national de métrologie et d'essais-Conservatoire national des arts et métiers
2016.05-2018.04 Postdoc in Technical Institute of Physics and Chemistry Chinese Academy of Sciences(National Postdoctoral Program for Innovative Talents)
Papers and Patents
1. Changzhao Pan*, Haiyang Zhang*, Gérard Rouillé, Bo Gao, Laurent Pitre. Helmholtz free energy equation of state for 3He-4He mixtures at temperatures above 2.2 K [J]. Journal of Physical and Chemical Reference Data, 50, 043102 (2021). (Co-Corresponding author)
2. Changzhao Pan, Fernando Sparasci, Haiyang Zhang, Pascal Gambette, MarkPlimmer, Dario Imbraguglio, Roberto M. Gavioso, Michael R. Moldover, Bo Gao*, Laurent Pitre*. Acoustic measurement of TNe used as a reference for thermometry below 25 K [J]. Metrologia, 2021 58 045006
3. Changzhao Pan, Fernando Sparasci*, Mark Plimmer, Lara Risegari, Jean-Michel Daugas, Gérard Rouillé, Bo Gao, Laurent Pitre*. Direct comparison of ITS-90 and PLTS-2000 from 0.65 K to 1 K at LNE-CNAM [J]. Metrologia, 2021 58 025005
4. Changzhao Pan, Hui Chen, Dongxu Han, Haiyang Zhang, Mark Plimmer, Dario Imbraguglio, Ercang Luo, Bo Gao*, Laurent Pitre. Numerical and Experimental Study of the Hydrostatic Pressure Correction in Gas Thermometry: A Case in the SPRIGT [J]. International Journal of Thermophysics, 2020, 41(8): 1-17(Co-first author)
5. Changzhao Pan, Bo Gao*, Yaonan Song, Haiyang Zhang, Dongxu Han, Jiangfeng Hu, Wenjing Liu, Hui Chen, Mark Plimmer, Fernando Sparasci, Ercang Luo, Laurent Pitre. Active suppression of temperature oscillation from a pulse-tube cryocooler in a cryogen-free cryostat: Part 1. Simulation modeling from thermal response characteristics [J]. Cryogenics, 2020, 109, 103097(Co-first author)
6. Changzhao Pan, Jiangfeng Hu, Haiyang Zhang, Yaonan Song, Dongxu Han, Wenjing Liu, Hui Chen, Mark Plimmer, Fernando Sparasci, Ercang Luo, Bo Gao*, Laurent Pitre. Active suppression of temperature oscillation from a pulse-tube cryocooler in a cryogen-free cryostat: Part 2. Experimental realization [J]. Cryogenics, 2020, 109, 103096(Co-first author)
7. Changzhao Pan*, Jue Wang, Kaiqi Luo, Liubiao Chen, Hai Jin, Wei Cui, Junjie Wang, Yuan Zhou*. Numerical and experimental study of VM type pulse tube cryocooler with multi-bypass operating below 4 K [J]. Cryogenics, 2019, 98: 71-79
8. Bo Gao*, Changzhao Pan, Yanyan Chen, Yaonan Song, Haiyang Zhang, Dongxu Han, Wenjing Liu, Hui Chen, Ercang Luo*, Laurent Pitre. Realization ultra-high precision temperature stabilization in the cryogen-free cryostat for the SPRIGT [J]. Review of Scientific Instruments 2018, 89 (10), 104901. (Co-first author)
9. Bo Gao*, Changzhao Pan, Laurent Pitre, Yanyan Chen, Haiyang Zhang, Yaonan Song, Hui Chen, Wenjing Liu, Dongxu Han, Ercang Luo*. Chinese SPRIGT realizes high temperature stability in the range of 5–25 K [J]. Science Bulletin, 2018, 129: 106-114. (Co-first author)
10. Changzhao Pan*, Tong Zhang, Junjie Wang*, Yuan Zhou. CFD study of heat transfer and pressure drop for oscillating flow in helical rectangular channel heat exchanger [J]. International Journal of Thermal Sciences, 2018, 129: 106-114.
11. Jue Wang, Changzhao Pan*, Tong Zhang, Kaiqi Luo, Yuan Zhou*, Junjie Wang. A novel method to hit the limit temperature of Stirling-type cryocooler [J]. Journal of Applied Physics, 2018, 123(6): 063901. (Co-Corresponding author)
12. Changzhao Pan, Jue Wang, Kaiqi Luo, Junjie Wang, Yuan Zhou*. Progress on a novel VM-type pulse tube cryocooler for 4K [J]. Cryogenics, 2017, 88: 66-69.
13. Changzhao Pan, Jue Wang, Tong Zhang, Junjie Wang, Yuan Zhou*. Numerical investigation on the thermoacoustics characteristics of thermal compressor for the pulse tube cryocooler [J]. Applied Thermal Engineering, 2017, 123:234-242.
14. Tong Zhang, Changzhao Pan*, Yuan Zhou, Junjie Wang*. Numerical investigation and experimental development on VM-PT cryocooler operating below 4K [J]. Cryogenics, 2016, 80: 138-146. (Co-Corresponding author)
15. Changzhao Pan, Tong Zhang, Yuan Zhou, Junjie Wang*. A novel coupled VM-PT cryocooler operating at liquid helium temperature [J]. Cryogenics, 2016, 77: 20-24.
16. Changzhao Pan, Tong Zhang, Junjie Wang*, Yuan Zhou. Numerical study of a one-stage VM cryocooler below 10K. Applied Thermal Engineering, 2016, 101: 422-431.
17. Changzhao Pan, Tong Zhang, Yuan Zhou, Junjie Wang*. Experimental study of one-stage VM cryocooler operating below 8K [J]. Cryogenics, 2015, 72: 122-126.
18. Changzhao Pan, Yuan Zhou, Junjie Wang*. CFD study of heat transfer for oscillating flow in helically coiled tube heat-exchanger [J]. Computers & Chemical Engineering, 2014, 69: 59-65.
19. Changzhao Pan, Yuan Zhou, Junjie Wang*, Liubiao Chen. A new method to calculate the pressure drop loss of the regenerator in VM refrigerator [J]. Cryogenics, 2014, 61: 107-110.