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Research Interests

I am a professor in Sun Yat-sen University. My primary interests are theoretical and observational cosmology, more specifically, Cosmic Microwave Background, cosmological perturbations, large scale structure, Dark Energy and Dark Matter, early-Universe Inflation and preheating models. I am in Planck core team, ACT team, SPIDER team and EUCLID theory group.

Career in three lines

Publications/eprints

[all] [published] [1st/co-1st/corresponding author]
  1. [arxiv] [doi] [bibtex] [wos] Reaffirming the Cosmic Acceleration without Supernova and CMB (Xiaolin Luo, Zhiqi Huang, Qiyue Qian, Lu Huang, ApJ 905(1), 53, 2020)
  2. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. LVI. Detection of the CMB dipole through modulation of the thermal Sunyaev-Zeldovich effect: Eppur si muove II (Y. Akrami, M. Ashdown, C. Baccigalupi et al., A&A 644, A100, 2020)
  3. [arxiv] Revisiting the Redshift Evolution of GRB Luminosity Correlation with PAge Approximation (Lu Huang, Zhiqi Huang, Xiaolin Luo, Yuhong Fang)
  4. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. LVII. Joint Planck LFI and HFI data processing (Y. Akrami, K. J. Andersen, M. Ashdown et al., A&A 643, A42, 2020)
  5. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. IX. Constraints on primordial non-Gaussianity (Y. Akrami, F. Arroja, M. Ashdown et al., A&A 641, A9, 2020)
  6. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. VIII. Gravitational lensing (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 641, A8, 2020)
  7. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. VII. Isotropy and Statistics of the CMB (Y. Akrami, M. Ashdown, J. Aumont et al., A&A 641, A7, 2020)
  8. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. VI. Cosmological parameters (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 641, A6, 2020)
  9. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. V. CMB power spectra and likelihoods (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 641, A5, 2020)
  10. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. IV. Diffuse component separation (Y. Akrami, M. Ashdown, J. Aumont et al., A&A 641, A4, 2020)
  11. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. III. High Frequency Instrument data processing and frequency maps (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 641, A3, 2020)
  12. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. II. Low Frequency Instrument data processing (Y. Akrami, F. Argüeso, , M. Ashdown et al., A&A 641, A2, 2020)
  13. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. XII. Galactic astrophysics using polarized dust emission (N. Aghanim, Y. Akrami, M. I. R. Alves et al., A&A 641, A12, 2020)
  14. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. XI. Polarized dust foregrounds (Y. Akrami, M. Ashdown, J. Aumont et al., A&A 641, A11, 2020)
  15. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. X. Constraints on inflation (Y. Akrami, F. Arroja, M. Ashdown et al., A&A 641, A10, 2020)
  16. [arxiv] [doi] [bibtex] [wos] Planck 2018 results. I. Overview and the cosmological legacy of Planck (Y. Akrami, F. Arroja, M. Ashdown et al., A&A 641, A1, 2020)
  17. [arxiv] [doi] [bibtex] [wos] New high-quality strong lens candidates with deep learning in the Kilo Degree Survey (R. Li, N. R. Napolitano, C. Tortora, C. Spiniello, L. V. E. Koopmans, Z. Huang, G. Vernardos, S. Chatterjee, B. Giblin, F. Getman, G. Covone, K. Kuijken, ApJ 893(1), 30, 2020)
  18. [arxiv] [doi] [bibtex] [wos] Band-limited Features in Primordial Power Spectrum Do Not Resolve the Hubble Tension (MiaoXin Liu, Zhiqi Huang, ApJ 897(2), 166, 2020)
  19. [arxiv] [doi] [bibtex] [wos] Can Non-standard Recombination Resolve the Hubble Tension? (Miaoxin Liu, Zhiqi Huang, Xiaolin Luo, Haitao Miao, Naveen K. Singh, Lu Huang, SCPMA 63(9), 290405, 2020)
  20. [arxiv] Design of a novel monolithic parabolic-mirror ion-trap to precisely align the RF null point with the optical focus (Zhao Wang, Ben-Ran Wang, Qing-Lin Ma, Jia-Yu Guo, Ming-Shen Li, Yu Wang, Xin-Xin Rao, Zhi-Qi Huang, Le Luo)
  21. [arxiv] [doi] [bibtex] [wos] Supernova Magnitude Evolution and PAge Approximation (Zhiqi Huang, ApJL 892(2), L28, 2020)
  22. [arxiv] [doi] [bibtex] [wos] Forecasting Cosmological Bias due to Local Gravitational Redshift (Haoting Xu, Zhiqi Huang, Na Zhang, Yundong Jiang, IJMPD 28(12), 1950150, 2019)
  23. [arxiv] The Simons Observatory: Astro2020 Decadal Project Whitepaper (Maximilian H. Abitbol, Shunsuke Adachi, Peter Ade et al., BAAS 51(7), 147, 2019)
  24. [arxiv] [doi] [bibtex] [wos] Revisiting Ryskin's Model of Cosmic Acceleration (Zhiqi Huang, Han Gao, Haoting Xu, Astroparticle Physics 114, 77, 2019)
  25. [arxiv] [doi] [bibtex] [wos] Flatness without CMB - the Entanglement of Spatial Curvature and Dark Energy Equation of State (Haoting Xu, Zhiqi Huang, Zhenjie Liu, Haitao Miao, ApJ 877(2), 107, 2019)
  26. [arxiv] [doi] [bibtex] [wos] High-redshift Mini-haloes from Modulated Preheating (Zhiqi Huang, PRD 99(10), 103537, 2019)
  27. [arxiv] [doi] [bibtex] [wos] The Simons Observatory: science goals and forecasts (Peter Ade, James Aguirre, Zeeshan Ahmed et al., JCAP 1902(2), 056, 2019)
  28. [arxiv] [doi] [bibtex] [wos] Anti-Evaporation of n-dimensional Reissner-Nordström Black Hole (YuHong Fang, Zhiqi Huang, HaiTao Miao, Naveen K Singh, PRD 99(4), 044011, 2019)
  29. [arxiv] [doi] [bibtex] [wos] The H0 Tension in Non-flat QCDM Cosmology (Haitao Miao, Zhiqi Huang, ApJ 868(1), 20, 2018)
  30. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. LIV. The Planck Multi-frequency Catalogue of Non-thermal Sources (Y. Akrami, F. Argüeso, M. Ashdown et al., A&A 619, A94, 2018)
  31. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. LIII. Detection of velocity dispersion from the kinetic Sunyaev-Zeldovich effect (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 617, A48, 2018)
  32. [arxiv] [doi] [bibtex] [wos] Cosmology and fundamental physics with the Euclid satellite (Luca Amendola, Stephen Appleby, Anastasios Avgoustidis et al., Living Review in Relativity 21, 2, 2018)
  33. [arxiv] Equipartition Dark Energy (Weipeng Lin, Zhiqi Huang, Yiming Hu, Shuang Wang, Yi-Jung Yang)
  34. [arxiv] [doi] [bibtex] [wos] Comparison of Einstein-Boltzmann solvers for testing general relativity (E. Bellini, A. Barreira, N. Frusciante et al., PRD 97(2), 023520, 2018)
  35. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. LI. Features in the cosmic microwave background temperature power spectrum and shifts in cosmological parameters (N. Aghanim, Y. Akrami, M. Ashdown et al., A&A 607, A95, 2017)
  36. [arxiv] [doi] [bibtex] [wos] A New Limit on CMB Circular Polarization from SPIDER (J. M. Nagy, P. A. R. Ade, M. Amiri et al., ApJ 844(2), 151, 2017)
  37. [arxiv] [doi] [bibtex] [wos] The Atacama Cosmology Telescope: Two-Season ACTPol Spectra and Parameters (Thibaut Louis, Emily Grace, Matthew Hasselfield et al., JCAP 1706(6), 031, 2017)
  38. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. L. Evidence for spatial variation of the polarized thermal dust spectral energy distribution and implications for CMB B-mode analysis (N. Aghanim, M. Ashdown, J. Aumont et al., A&A 599, A51, 2017)
  39. [arxiv] [doi] [bibtex] [wos] Weakening Gravity on Redshift-Survey Scales with Kinetic Matter Mixing (Guido D'Amico, Zhiqi Huang, Michele Mancarella, Filippo Vernizzi, JCAP 1702(2), 014, 2017)
  40. [arxiv] [doi] [bibtex] [wos] Marginalized Fisher Forecast for Horndeski Dark Energy Models (Jason S.-Y. Leung, Zhiqi Huang, IJMPD 26(7), 1750070, 2017)
  41. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XLIX. Parity-violation constraints from polarization data (N. Aghanim, M. Ashdown, J. Aumont et al., A&A 596, A110, 2016)
  42. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XLVIII. Disentangling Galactic dust emission and cosmic infrared background anisotropies (N. Aghanim, M. Ashdown, J. Aumont et al., A&A 596, A109, 2016)
  43. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XLVII. Planck constraints on reionization history (R. Adam, N. Aghanim, M. Ashdown et al., A&A 596, A108, 2016)
  44. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XLVI. Reduction of large-scale systematic effects in HFI polarization maps and estimation of the reionization optical depth (N. Aghanim, M. Ashdown, J. Aumont et al., A&A 596, A107, 2016)
  45. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XLIV. The structure of the Galactic magnetic field from dust polarization maps of the southern Galactic cap (N. Aghanim, M. I. R. Alves, D. Arzoumanian et al., A&A 596, A105, 2016)
  46. [arxiv] [doi] [bibtex] [wos] The Future of Primordial Features with Large-Scale Structure Surveys (Xingang Chen, Cora Dvorkin, Zhiqi Huang, Mohammad Hossein Namjoo, Licia Verde, JCAP 1611(11), 014, 2016)
  47. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. XX. Constraints on inflation (P. A. R. Ade, N. Aghanim, M. Arnaud et al., A&A 594, A20, 2016)
  48. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. XVII. Constraints on primordial non-Gaussianity (P. A. R. Ade, N. Aghanim, M. Arnaud et al., A&A 594, A17, 2016)
  49. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. XVI. Isotropy and statistics of the CMB (P. A. R. Ade, N. Aghanim, Y. Akrami et al., A&A 594, A16, 2016)
  50. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. XIV. Dark energy and modified gravity (P. A. R. Ade, N. Aghanim, M. Arnaud et al., A&A 594, A14, 2016)
  51. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. XIII. Cosmological parameters (P. A. R. Ade, N. Aghanim, M. Arnaud et al., A&A 594, A13, 2016)
  52. [arxiv] [doi] [bibtex] [wos] Planck 2015 results. I. Overview of products and scientific results (R. Adam, P. A. R. Ade, N. Aghanim et al., A&A 594, A1, 2016)
  53. [arxiv] [doi] [bibtex] [wos] Observational effects of a running Planck mass (Zhiqi Huang, PRD 93(4), 043538, 2016)
  54. [arxiv] [doi] [bibtex] [wos] Planck intermediate results. XXXVIII. E- and B-modes of dust polarization from the magnetized filamentary structure of the interstellar medium (P. A. R. Ade, N. Aghanim, M. Arnaud et al., A&A 586, A141, 2016)
  55. [arxiv] [doi] [bibtex] [wos] Revisiting the cosmological bias due to local gravitational redshifts (Zhiqi Huang, PRD 91(12), 121301(R), 2015)
  56. [arxiv] Testing Inflation with Large Scale Structure: Connecting Hopes with Reality (Marcelo Alvarez, Tobias Baldauf, J. Richard Bond et al.)
  57. [arxiv] [doi] [bibtex] [wos] Chameleons in the early Universe: Kicks, rebounds, and particle production (Adrienne L. Erickcek, Neil Barnaby, Clare Burrage, Zhiqi Huang, PRD 89(8), 084074, 2014)
  58. [arxiv] [doi] [bibtex] [wos] Full cosmic microwave background temperature bispectrum from single-field inflation (Zhiqi Huang, Filippo Vernizzi, PRD 89(2), 021302, 2014)
  59. [arxiv] [doi] [bibtex] [wos] Catastrophic Consequences of Kicking the Chameleon (Adrienne L. Erickcek, Neil Barnaby, Clare Burrage, Zhiqi Huang, PRL 110(17), 171101, 2013)
  60. [arxiv] [doi] [bibtex] [wos] Cosmic Microwave Background Bispectrum from Recombination (Zhiqi Huang, Filippo Vernizzi, PRL 110(10), 101303, 2013)
  61. [arxiv] [doi] [bibtex] [wos] A cosmology forecast toolkit - CosmoLib (Zhiqi Huang, JCAP 1206(6), 012, 2012)
  62. [arxiv] [doi] [bibtex] [wos] Constraining inflation with future galaxy redshift surveys (Zhiqi Huang, Licia Verde, Filippo Vernizzi, JCAP 1204(4), 005, 2012)
  63. [arxiv] [doi] [bibtex] [wos] Art of lattice and gravity waves from preheating (Zhiqi Huang, PRD 83(12), 123509, 2011)
  64. [arxiv] [doi] [bibtex] [wos] Parameterizing and Measuring Dark Energy Trajectories from Late-Inflatons (Zhiqi Huang, J. Richard Bond, Lev Kofman, ApJ 726(2), 64, 2011)
  65. [arxiv] [doi] [bibtex] [wos] Particle production during inflation: Observational constraints and signatures (Neil Barnaby, Zhiqi Huang, PRD 80(12), 126018, 2009)
  66. [arxiv] [doi] [bibtex] [wos] Preheating after modular inflation (Neil Barnaby, J. Richard Bond, Zhiqi Huang, Lev Kofman, JCAP 0912(12), 021, 2009)
  67. [arxiv] [doi] [bibtex] [wos] Non-Gaussian Curvature Spikes from Chaotic Billiards in Inflation Preheating (J. Richard Bond, Andrei V. Frolov, Zhiqi Huang, Lev Kofman, PRL 103(7), 071301, 2009)
  68. [arxiv] [doi] [bibtex] [wos] Cosmological fluctuations from infrared cascading during inflation (Neil Barnaby, Zhiqi Huang, Lev Kofman, Dmitry Pogosyan, PRD 80(4), 043501, 2009)
  69. [arxiv] [doi] [bibtex] [wos] Cosmological Constraints on Decaying Dark Matter (Santiago De Lope Amigo, William Man-Yin Cheung, Zhiqi Huang, Siew-Phang Ng, JCAP 0906(6), 005, 2009)

Refereed Journals:

Honors and Prizes

Invited Talks

Contact

Email: huangzhq25@mail.sysu.edu.cn
Tel:0756-3668932 (international: +86-756-3668932)
Address: School of Astronomy and Physics,
Sun Yat-sen University (Zhuhai campus),
2 Daxue Rd, Tangjia,
Zhuhai, 519082, CHINA
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