Shaobo WANG

Assistant Professor                                 

Office: 614 Building No. 5, New Science Building

Tel: +86-15026676067

E-mail：shaobo.wang@sjtu.edu.cn                                   

Research Interests：R&D in Gas Detector, Neutrinoless Double Beta Decay experiment,

low background experiment

Education and Professional experience：

Shaobo WANG obtained his bachelor degree from HUST in 2010, master degree from Paris-Sud University in

2012, and Ph.D degree from École Polytechnique in 2016. He works in the HARPO collaboration to do the R&D

of gaseous TPC to detect the polarization of astro-gamma rays inMeV-GeV range during the doctoral study.

The he joined the PandaX-III experiment which is leaded by SJTU as a postdoc, he worked on the data taking

and performance test of the PandaX-III prototype detector. From 2018, he joined the INPAC and SPEIT faculty.

At SJTU, he focus on the R&D of the gaseous TPC for neutrinoless double beta decay search and the

measurement of polarization of astro-gamma. Now he is in charge of the R&D of the full TPC of PandaX-III

and its sub-systems, such as the calibration system, the slow control system, the performance test of prototype

detector , also the track reconstruction and signal-background discrimination.

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Selected publications：

1. “PandaX-III high pressure xenon TPC for Neutrinoless Double Beta Decay search”,

J.NIMA.2019.162439.

2. “Topological background discrimination in the PandaX-III neutrinoless double beta decay experiment”,

arXiv:1903.03979, J. Phys. G: Nucl. Part. Phys.: JPhysG-102940.

3. “Development of a 6D kalman filter for charged particle tracking in time projection chamber without

magnetic field”, Radiation Detection Technology and Methods : RDTM-D-19-00066.

4. “Design and commissioning of a 600 L Time Projection Chamber with Microbulk Micromegas”, Journal

of Instrumentation, 2018.06, 13(6): P06012.

5. “PandaX-III: Search for neutrinoless double beta decay with high pressure 136Xe gas time projection

chambers”, Science China, Physics, Mechanics & Astronomy(June 2017 Vol.60 No.6:061011),

doi [10.1007/s11433-017-9028-0].

6. “Performance measurement of HARPO: a Time Projection Chamber as a gamma-ray telescope

and polarimeter”, Astroparticle Physics 97 (2018) 10, arXiv:1706.06483 [astro-ph.IM].

7. “A TPC as high performance gamma-ray telescope and polarimeter: polarisation measurement in

a beam between 1.7 and 74 MeV with HARPO”, J.Phys.Conf.Ser. 1029 (2018) no.1, 012003.

8. “HARPO: beam characterization of a TPC for gamma-ray polarimetry and high angular resolution

astronomy in the MeV-GeV range”, J. Phys. Conf. Ser. 650 (2015) 012016, arXiv:1503.03772 [astro-ph.IM].

9. “Measurement of a polarized gamma ray beam from 1.7 to 74 MeV with the HARPO TPC”,

Nucl. Instrum. Meth. A, arXiv:1603.06817 [physics.ins-det].

10. “Measurement of polarisation asymmetry for gamma rays between 1.7 to 74 MeV with the HARPO TPC”,

Proc.SPIE Int.Soc.Opt.Eng. 9905 (2016) 99052R, [arXiv:1606.09417 [astro-ph.IM.]].

11. “HARPO: beam characterization of a TPC for gamma-ray polarimetry and high angular resolution

astronomy in the MeV-GeV range”, J.Phys.Conf.Ser. 650 (2015) 012016 , arXiv:1503.03772 [astro-ph.IM].

12. “HARPO: beam characterization of a TPC for gamma-ray polarimetry and high angular resolution astronomy

in the MeV-GeV range”, J.Phys.Conf.Ser. 650 (2015) 012016 , arXiv:1503.03772 [astro-ph.IM].

13. “HARPO: a TPC as a gamma-ray telescope and polarimeter”, SPIE2014 Journal of Astronomical Telescopes,

Instruments, and Systems (JATIS). [arXiv:1406.4830 [astro-ph.IM]].