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张宏浩

职  称: 教授,博士生导师
学  位: 博士
毕业学校: 清华大学
联系电话:
电子邮件: zhh98@mail.sysu.edu.cn
个人主页: https://honghao0304.github.io/docs/

主要经历: 
  • 1998.9--2002.7 清华大学 数理基础科学 学士
  • 2002.9--2007.7 清华大学 物理学 博士
  • 2007.7--2010.12 bat365在线平台网站 讲师
  • 2011.1--2016.12 bat365在线平台网站 副教授
  • 2017.1--现在 bat365在线平台网站教授
学科方向: 

学术专长: 量子场论, 粒子物理与早期宇宙理论.

研究兴趣: (1)暗物质, 复合Higgs, 超出标准模型的新物理; (2)量子场论的新方法, 及相关的新兴交叉方向.

是国家自然科学基金面上项目(11875327,12275367)主持人,国家自然科学基金评审人。

是物理学一级学科博士生导师,每年拟招收1-2名硕士生、1-2名博士生,欢迎联系和报考。

每年拟招收1-3名博士后,原则上随时(寒暑假除外)可接受博士后申请,欢迎联系。

承担课题: 

以项目负责人承担的科研项目主要有

  • 国家自然科学基金青年基金:2011.1-2013.12,已结题
  • 国家自然科学基金面上项目:2014.1-2017.12,已结题
  • 国家自然科学基金面上项目:2019.1-2022.12
  • 国家自然科学基金面上项目:2023.1-2026.12
主要兼职: 
  • 中国物理学会高能物理分会委员(理事)
  • AAPPS Bulletin编委(2020.01-2023.06)
  • 《物理与工程》编委
代表论著: 

近期的部分论文:

  • Cancellation mechanism of dark matter direct detection in Higgs-portal and vector-portal models, JHEP 01 (2022) 117.
  • Vector dark matter production from catalyzed annihilation, JHEP 01 (2022) 099.
  • Explaining anomalies of B-physics, muon g−2 and W mass in R-parity violating MSSM with seesaw mechanism, Eur.Phys.J. C82 (2022) no.10, 895.
  • Improving heavy Dirac neutrino prospects at future hadron colliders using machine learning, JHEP 09 (2022) 141.
  • CP asymmetry in the angular distributions of tau -> K-S pi nu(tau) decays. Part II. General effective field theory analysis, JHEP 01 (2022) 108.
  • Revisiting the constraints on primordial black hole abundance with the isotropic gamma-ray background, Phys. Rev. D 105 (2022) no.6, 063008.
  • Time-reversal invariant topological gapped phases in bilayer Dirac materials, Phys. Rev. B 106 (2022) no.6, 064509.
  • Probing robust Majorana signatures by crossed Andreev reflection with a quantum dot, Phys. Rev. B 105 (2022) no.3, 035148.
  • Geminga contribution to the cosmic-ray positron excess according to the gamma-ray observations, Commun. Theor. Phys. 74 (2022) no.10, 105403.
  • Studying the b -> sl(+)l(-) anomalies and (g-2)(mu) in R-parity violating MSSM framework with the inverse seesaw mechanism, Phys. Rev. D 104 (2021) no.11, 115023.
  • Probing mu eV ALPs with future LHAASO observations of AGN gamma-ray spectra, Phys. Rev. D 104 (2021) no.8, 083014.
  • Phase transition gravitational waves from pseudo-Nambu-Goldstone dark matter and two Higgs doublets, JHEP 05 (2021) 160.
  • Vector dark matter from split SU(2) gauge bosons, JHEP 07 (2021) 089.
  • Intersecting Surface defects and 3d Superconformal indices, JHEP 05 (2021) 155.
  • Nonlinear Hall effect in two-dimensional class-AI metals, Phys. Rev. B 103 (2021), 235151.
  • 1 <-> 2 processes of a sterile neutrino around the electroweak scale in a thermal plasma, Phys.Rev.D 103 (2021) 9, 095003.
  • Adjoint SU(5) GUT model with Modular S4 Symmetry, JHEP 2103 (2021) 002.
  • Leptogenesis due to oscillating Higgs field, Eur.Phys.J. C80 (2020) no.12, 1098.
  • Inert sextuplet scalar dark matter at the LHC and future colliders, JHEP 2010 (2020) 212.
  • XENON1T solar axion and the Higgs boson emerging from the dark, Phys.Rev.D 102 (2020) no.7, 075018.
  • Higgs Boson Emerging from the Dark, Phys. Rev. Lett. 125 (2020) no.2, 021801.
  • Probing quadruplet scalar dark matter at current and future pp colliders, Phys.Rev.D 101 (2020) no.11, 115033.
  • Fermionic and scalar dark matter with hidden U(1) gauge interaction and kinetic mixing, Phys.Rev.D 101 (2020) no.9, 095031.
  • A Genetic Algorithm for Astroparticle Physics Studies, Comput.Phys.Commun. 250 (2020) 106818.
  • Pseudo-Nambu-Goldstone dark matter and two-Higgs-doublet models, Phys.Rev.D 100 (2019) no.7, 075011.
  • Minimal asymptotically safe dark matter, Phys.Lett.B 798 (2019) 134947.
  • Vacuum alignment in a composite 2HDM, JHEP 1901 (2019) 130.
  • Torsional response and Liouville anomaly in Weyl semimetals with dislocations, Phys.Rev. B99 (2019) 155152.
  • Scalar quintuplet minimal dark matter with Yukawa interactions: perturbative up to the Planck scale, Chin.Phys. C43 (2019) 023102.
  • Dark Matter Search in Space: Combined Analysis of Cosmic Ray Antiproton-to-Proton Flux Ratio and Positron Flux Measured by AMS-02, Astrophys.J. 858 (2018) no.2, 116.
  • Minimal dark matter in SU(2)_L U(1)_Y U(1)_(B-L), Phys.Lett. B784 (2018) 385-391.
  • CEPC Precision of Electroweak Oblique Parameters and Weakly Interacting Dark Matter: the Fermionic Case, Nucl.Phys. B921 (2017) 181-210.
  • CEPC Precision of Electroweak Oblique Parameters and Weakly Interacting Dark Matter: the Scalar Case, Nucl.Phys. B924 (2017) 128-152.
  • 750 GeV diphoton resonance as a singlet scalar in an extra dimensional model, Phys.Rev. D93 (2016) no.7, 075033.
  • Pulsar interpretation of lepton spectra measured by AMS-02, Eur.Phys.J. C76 (2016) no.5, 229.
  • Majorana neutrinos with point interactions, Phys.Rev. D93 (2016) no.3, 036003.
  • Perturbativity Limits for Scalar Minimal Dark Matter with Yukawa Interactions: Septuplet, Phys.Rev. D92 (2015) no.11, 115004.
  • Constraining the interaction strength between dark matter and visible matter: I. fermionic dark matter, Nucl.Phys. B854 (2012) 350-374.
  • Constraining the interaction strength between dark matter and visible matter: II. scalar, vector and spin-3/2 dark matter, Nucl.Phys. B860 (2012) 115-151.
  • A Nondiagrammatic calculation of the rho parameter from heavy fermions, Eur.Phys.J. C67 (2010) 51-56.