ICTP-AP | People

Teng MA

Title

Tenure-Track Assistant Professor -

mateng@ucas.ac.cn

Phone

Address

Room 211, Building 7, No.80 Zhongguancun East Rd,Haidian District, Beijing

Education:

Sept. 2011 -Jul. 2016 Tsinghua University, Beijing, China, Ph.D., High Energy Physics. Particle Physics and Quantum Field Theory Major

Sept. 2007 -Sept. 2011 Harbin Institute of Technology, Harbin, China, Bachelor of Physics. Applied Physics

Research Experience:

Sept. 2019 - Jun. 2023 Technion, Haifa, Israel, Postdoctoral Fellow. Research with Yotam Soreq, Dark matter, search for new physics, and amplitudes

Sept. 2018 -Dec. 2018 Cornell University, Ithaca, NY, USA, Visiting Scholar. Research with Csaba Csáki and Maxim Perelstein, Model building of electroweak symmetry breaking, sum rules, and collider phenomenology Jun.

2016 -Jun. 2019 Institute of Theoretical Physics, Beijing, China, Postdoctoral Fellow. Research with Jing Shu and Csaba Csáki, Model building of electroweak symmetry breaking and effective field theory.

Sept. 2017 -Oct. 2017 Cornell University, Ithaca, NY, USA, Visiting Scholar. Research with Csaba Csáki, Model building of neutral naturalness.

Nov. 2014 -Jun. 2015 Nuclear Physics Center of Lyon University, Lyon, France, Visiting Student. Research with Giacomo Cacciapaglia, Composite Higgs model building.

Sept. 2011 -Jun. 2016 Tsinghua University, Beijing, China, Ph.D Student. Research with Bin Zhang (Advisor) and Giacomo Cacciapaglia, Collider phenomenology of new physics.

Awards

2013-2014 Guanghua Prize in Physics

2014-2015 National Scholarship

2016-2019 2016 National Postdoctoral Program for Innovative Talents

2020-12 Be Chosen as Excellent Innovation Achievements in National Postdoctoral Program for Innovative Talents.

2019-2022“Study in Israel” Fellowship for Outstanding Post-Doctoral Researchers from China and India by PBC of CHE.

∗ Effective Field Theory and Scattering Amplitudes:

phenomenology of effective field theory, connections between effective field theories and their

ultraviolet completions, and applications of scattering amplitudes in effective field theory and

particle physics.

∗ Dark matter, Particle Cosmology, and General Relativity from Scattering Amplitudes:.

exploring the nature of dark matter and its phenomenology, gravity waves, particle physics in

early universe, and applications of scattering amplitudes in general relativity calculations

∗ Electroweak Symmetry Breaking:.

model building of electroweak symmetry breaking, probing Higgs naturalness, and phenomenology

of new physics.

∗ Search for New physics and Collider Phenomenology:.

new approaches to probing new physics, collider constraints and smoking-gun signatures in

various new physics models, discriminating different models via collider signatures, new signals

and new techniques at future colliders

1 Generating a Higgs Potential Quartic Term.

Csaba Csáki, Cong-Sen Guan, Teng Ma, Jing Shu

Phys.Rev.Lett. 124 (2020) 25, 251801, arXiv:1904.03191 [hep-ph]. (as co-corresponding author)

Impact factor 9.16; Citation 6

2 Emergence of Maximal Symmetry.

Csaba Csáki, Teng Ma, Jing Shu, Jiang-Hao Yu

Phys.Rev.Lett. 124 (2020) 24, 241801, arXiv:1810.07704 [hep-ph]. (as co-corresponding author)

Impact factor 9.16; Citation 14

3 Trigonometric Parity for the Composite Higgs.

Csaba Csáki, Teng Ma, Jing Shu

Phys.Rev.Lett. 121 (2018) no.23, 231801, arXiv:1709.08636 [hep-ph]. (as co-first author)

Impact factor 9.16; Citation 45

4 Maximally Symmetric Composite Higgs Models.

Csaba Csáki, Teng Ma, Jing Shu

Phys.Rev.Lett. 119 (2017) no.13, 131803, arXiv:1702.00405 [hep-ph]. (as co-first author)

Impact factor 9.16; Citation 40

5 LUXE-NPOD: new physics searches with an optical dump at LUXE.

Zhaoyu Bai, Thomas Blackburn, Oleksandr Borysov, Oz Davidi, Anthony Hartin, Beate Heinemann, Teng Ma, Gilad Perez, Arka Santra, Yotam Soreq, Noam Tal Hod

arXiv:2107.13554 [hep-ph]. (as co-corresponding author) (under reviewed by PRL) Citation 11

6 Speculations on the W-Mass Measurement at CDF.

Jiayin Gu, Zhen Liu, Teng Ma, Jing Shu

arXiv:2204.05296 [hep-ph]. (as co-first author) Citation 41

7 Probing ALPs at the CERN Gamma Factory.

Reuven Balkin, Mieczyslaw W. Krasny, Teng Ma, Benjamin R. Safdi, Yotam Soreq

Annalen Phys.(2021), 00222, arXiv:2105.15072 [hep-ph]. (as co-first author) Impact factor

3.3; Citation 4

8 Constructing Generic Effective Field Theory for All Masses and Spins.

Zi-Yu Dong, Teng Ma, Jing Shu, Yu-Hui Zheng

arXiv:2202.08350 [hep-ph]. (as co-first author) Citation 5

9 Constructing on-shell operator basis for all masses and spins.

Zi-Yu Dong, Teng Ma, Jing Shu

arXiv:2103.15837 [hep-ph]. (plan to submit to PRL) Citation 10

10 Conceptual design report for the LUXE experiment.

H. Abramowicz, U. Acosta, M. Altarelli, R. Aßmann, Z. Bai, T. Behnke, Y. Benhammou,

T. Blackburn, S. Boogert and O. Borysov, Teng Ma, et al.

Eur.Phys.J.ST 230 (2021) 11, 2445-2560, arXiv:2102.02032 [hep-ex]. Impact factor 2.707;

Citation 53

11 UV completed composite Higgs model with heavy composite partners.

Zi-Yu Dong, Cong-Sen Guan, Teng Ma, Jing Shu, Xiao Xue

Phys.Rev.D 104 (2021) 3, 035013, arXiv:2011.09460 [hep-ph]. (as co-first author) Impact

factor 5.296; Citation 3

12 Stealth decaying spin-1 dark matter.

Cédric Delaunay, Teng Ma, Yotam Soreq

JHEP 02 (2021) 010, arXiv:2009.03060 [hep-ph]. (as co-first author) Impact factor 5.833;

Citation 6

13 Renormalization Group Evolution from On-shell SMEFT.

Minyuan Jiang, Teng Ma, Jing Shu

JHEP 01 (2021) 101, arXiv:2005.10261 [hep-ph]. (as corresponding author) Impact factor

5.833; Citation 24

14 Neutrino Portal to FIMP Dark Matter with an Early Matter Era.

Catarina Cosme, Maãŋra Dutra, Teng Ma, Yongcheng Wu, Litao Yang

JHEP 03 (2021) 026, arXiv:2003.01723 [hep-ph]. (as co-first author) Impact factor 5.833;

Citation 32

15 Left-right symmetric composite Higgs model.

Cong-Sen Guan, Teng Ma, Jing Shu

Phys.Rev.D 101 (2020) 3, 035032, arXiv:1911.11765 [hep-ph]. (as co-first author) Impact

factor 4.833; Citation 4

16 Twin Higgs with exact Z2.

Csaba Csáki, Cong-Sen Guan, Teng Ma, Jing Shu

JHEP 12 (2020) 005, arXiv:1910.14085 [hep-ph]. (as corresponding author) Impact factor

5.833; Citation 8

17 Composite Models on a safe road to the Planck scale.

Giacomo Cacciapaglia, Teng Ma, Yongcheng Wu

J.Phys.Conf.Ser. 1271 (2019) 1, 012014. Impact factor 0.547; Citation 2

18 Standard Model Effective Field Theory from On-shell Amplitudes.

Teng Ma, Jing Shu, Ming-Lei Xiao

arXiv:1902.06752 [hep-ph]. Citation 46

19 Six Top Messages of New Physics at the LHC.

Huayong Han, Li Huang, Teng Ma, Jing Shu, Tim M.P. Tait, Yongcheng Wu

JHEP 10 (2019) 008, arXiv:1812.11286 [hep-ph]. (as co-first author) Impact factor 5.833;

Citation 16

20 Towards a fundamental safe theory of composite Higgs and Dark Matter.

Giacomo Cacciapaglia, Shahram Vatani, Teng Ma, Yongcheng Wu

Eur.Phys.J.C 80 (2020) 11, 1088, arXiv:1812.04005 [hep-ph]. (as co-first author) Impact

factor 4.53; Citation 23

21 Naturalness Sum Rules and Their Collider Tests.

Csaba Csáki, Felipe Ferreira De Freitas, Li Huang, Teng Ma, Maxim Perelstein, Jing Shu

JHEP 05 (2019) 132, arXiv:1811.01961 [hep-ph]. (as co-first author) Impact factor 5.833;

Citation 4

22 Composite Dark Matter and Higgs.

Yongcheng Wu, Teng Ma, Bin Zhang, Giacomo Cacciapaglia

JHEP 1711 (2017) 058 [arXiv:1703.06903 [hep-ph]]. (as co-first author) Impact factor 5.833;

Citation 57

23 Fundamental Composite 2HDM: SU(N) with 4 flavours.

Teng Ma, Giacomo Cacciapaglia

JHEP 1603 (2016) 211 [arXiv:1508.07014 [hep-ph]]. Impact factor 5.833; Citation 71

24 Doubly Charged Lepton from an Exotic Doublet at the LHC.

Teng Ma, Bin Zhang, Giacomo Cacciapaglia Phys.Rev.D89 (2014) 093022 [arXiv:1404.2375 [hep-ph]]. Impact factor 4.833; Citation 24

25 Triplet with a doubly-charged lepton at the LHC.

Teng Ma, Bin Zhang, Giacomo Cacciapaglia Phys.Rev.D89 (2014) 015020 [arXiv:1309.7396 [hep-ph]]. Impact factor 4.833; Citation 18