Durham University

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Staff Profile

Prof Baojiu Li, PhD

Reader in the Department of Physics
Telephone: +44 (0) 191 33 43567
Room number: ocw218
Room number: OCW218

(email at baojiu.li@durham.ac.uk)

Academic Career

  • 10/2016-06/2019: Reader, Department of Physics, Durham University
  • 10/2014-09/2016: Senior Lecturer, Department of Physics, Durham University
  • 10/2011-09/2014: Lecturer in Theoretical Astrophysics, Department of Physics, Durham University
  • 10/2011-09/2014: Royal Astronomical Society Research Fellow, Institute for Computational Comology, Durham University
  • 10/2009-09/2011: Research Fellow in Applied Mathematics (JRF), Queens' College, University of Cambridge
  • 10/2009-09/2011: Research Associate, Department of Applied Maths & Theoretical Physics, University of Cambridge
  • 10/2009-09/2011: Research Associate, Kavli Institute for Cosmology Cambridge, Institute of Astronomy, University fo Cambridge

Education

  • 2006-2009: PhD in Applied Mathematics, Queens' College, University of Cambridge, the United Kingdom
  • 2004-2006: MPhil in Physics, The Chinese University of Hong Kong, Hong Kong
  • 2000-2004: BSc in Physics, Tsinghua University, Beijing, China

Teaching and Mentoring

  • Lecturer for Level 3/4 course "Cosmology"
  • Mentor for the University College
  • Adviser for Level 1 Physics & Natural Science students
  • Supervisor for Level 4 project (Physics)

Research Groups

Department of Physics

Research Interests

  • Accelerated cosmic expansion and cosmological tests of gravity
  • Large scale structure
  • Weak gravitational lensing
  • Numerical simulations
  • Cosmic voids
  • Numerical relativity
  • Reconstuction and BAO

Teaching Areas

  • Level 3/4 Lectures on Planet & Cosmology (Cosmology II)

    (10 hours/year.)
  • Postgraduate Lectures on Cosmic Acceleration

    (2 hours/year.)
  • General Problems Example Classes (8 hours/year.)

Publications

Journal Article

  • Hernández-Aguayo, César , Hou, Jiamin Li, Baojiu, Baugh, Carlton & Sánchez, Ariel G. (Published). Large-scale redshift space distortions in modified gravity theories. Monthly Notices of the Royal Astronomical Society 485(2): 2194-2213.
  • Mitchell, Myles A, Arnold, Christian, He, Jian-hua & Li, Baojiu (2019). A general framework to test gravity using galaxy clusters II: A universal model for the halo concentration in f(R) gravity. Monthly Notices of the Royal Astronomical Society 487(1): 1410-1425.
  • Satpathy, Siddharth, Croft, Rupert A. C., Ho, Shirley & Li, Baojiu (2019). Measurement of marked correlation functions in SDSS-III Baryon Oscillation Spectroscopic Survey using LOWZ galaxies in Data Release 12. Monthly Notices of the Royal Astronomical Society 484(2): 2148-2165.
  • Cataneo, Matteo, Lombriser, Lucas, Heymans, Catherine Mead, Alexander Barreira, Alexandre, Bose, Sownak & Li, Baojiu (2019). On the road to percent accuracy: nonlinear reaction of the matter power spectrum to dark energy and modified gravity. Monthly Notices of the Royal Astronomical Society
  • Arnold, Christian, Leo, Matteo & Li, Baojiu (2019). Realistic simulations of galaxy formation in f(R) modified gravity. Nature Astronomy
  • Birkin, Jack, Li, Baojiu, Cautun, Marius & Shi, Yanlong (2019). Reconstructing the baryon acoustic oscillations using biased tracers. Monthly Notices of the Royal Astronomical Society 483(4): 5267-5280.
  • Devi, N. Chandrachani, Rodríguez-Puebla, Aldo, Valenzuela, O. Avila-Reese, Vladimir, Hernández-Aguayo, César & Li, Baojiu (2019). The Galaxy Halo Connection in Modified Gravity Cosmologies: Environment Dependence of Galaxy Luminosity function. Monthly Notices of the Royal Astronomical Society 488(1): 782-802.
  • Paillas, Enrique, Cautun, Marius, Li, Baojiu, Cai, Yan-Chuan, Padilla, Nelson, Armijo, Joaquin & Bose, Sownak (2019). The Santiago-Harvard-Edinburgh-Durham void comparison II: unveiling the Vainshtein screening using weak lensing. Monthly Notices of the Royal Astronomical Society
  • Mitchell, Myles A, He, Jian-hua, Arnold, Christian & Li, Baojiu (2018). A general framework to test gravity using galaxy clusters I: Modelling the dynamical mass of haloes in f(R) gravity. Monthly Notices of the Royal Astronomical Society 477(1): 1133-1152.
  • Li, Baojiu (2018). Approximation methods in modified gravity models. International Journal of Modern Physics D 27(15): 1848004.
  • Bellini, E., Barreira, A., Frusciante, N., Hu, B., Peirone, S., Raveri, M., Zumalacárregui, M., Avilez-Lopez, A., Ballardini, M., Battye, R. A., Bolliet, B., Calabrese, E., Dirian, Y., Ferreira, P. G., Finelli, F., Huang, Z., Ivanov, M. M., Lesgourgues, J., Li, B., Lima, N. A., Pace, F., Paoletti, D., Sawicki, I., Silvestri, A., Skordis, C., Umiltà, C. & Vernizzi, F. (2018). Comparison of Einstein-Boltzmann solvers for testing general relativity. Physical Review D 97(2): 023520
  • Zhao, Wen, Wright, Bill S. & Li, Baojiu (2018). Constraining the time variation of Newton's constant G with gravitational-wave standard sirens and supernovae. Journal of Cosmology and Astroparticle Physics 2018(10): 052.
  • Li, Baojiu & Shirasaki, Masato (2018). Galaxy–galaxy weak gravitational lensing in f(R) gravity. Monthly Notices of the Royal Astronomical Society 474(3): 3599-3614.
  • Hernández-Aguayo, César, Baugh, Carlton M. & Li, Baojiu (2018). Marked clustering statistics in f(R) gravity cosmologies. Monthly Notices of the Royal Astronomical Society 479(1): 4824-4835.
  • Leo, Matteo, Baugh, Carlton M., Li, Baojiu & Pascoli, Silvia (2018). N-body simulations of structure formation in thermal inflation cosmologies. Journal of Cosmology and Astroparticle Physics 2018(12): 010.
  • Shi, Yanlong, Cautun, Marius & Li, Baojiu (2018). New method for initial density reconstruction. Physical Review D 97(2): 023505.
  • He, Jian-hua, Guzzo, Luigi, Li, Baojiu & Baugh, Carlton M. (2018). No evidence for modifications of gravity from galaxy motions on cosmological scales. Nature Astronomy 2(12): 967-972.
  • Adhikari, Susmita, Sakstein, Jeremy, Jain, Bhuvnesh, Dalal, Neal & Li, Baojiu (2018). Splashback in galaxy clusters as a probe of cosmic expansion and gravity. Journal of Cosmology and Astroparticle Physics 2018(11): 033.
  • Armijo J. Cai Y.-C. Padilla N. Li B. & Peacock J. A. (2018). Testing modified gravity using a marked correlation function. Monthly Notices of the Royal Astronomical Society 478(3): 3627-3632.
  • Cautun, Marius, Paillas, Enrique, Cai, Yan-Chuan, Bose, Sownak, Armijo, Joaquin, Li, Baojiu & Padilla, Nelson (2018). The Santiago-Harvard-Edinburgh-Durham void comparison I: SHEDding light on chameleon gravity tests. Monthly Notices of the Royal Astronomical Society 476(3): 3195-3217.
  • Wright, Bill S. & Li, Baojiu (2018). Type Ia supernovae, standardizable candles, and gravity. Physical Review D 97(8): 083505.
  • Davies, Christopher T., Cautun, Marius & Li, Baojiu (2018). Weak lensing by voids in weak lensing maps. Monthly Notices of the Royal Astronomical Society: Letters 480(1): L101-L105.
  • Shi, Difu, Li, Baojiu & Han, Jiaxin (2017). Environmental screening of dark matter haloes in f(R) gravity. Monthly Notices of the Royal Astronomical Society 469(1): 705-715.
  • Rondeau, François & Li, Baojiu (2017). Equivalence of cosmological observables in conformally related scalar tensor theories. Physical Review D 96(12): 124009.
  • Fang, Wenjuan, Li, Baojiu & Zhao, Gong-Bo (2017). New Probe of Departures from General Relativity Using Minkowski Functionals. Physical Review Letters 118(18): 181301.
  • Bose, Sownak, Li, Baojiu, Barreira, Alexandre, He, Jian-hua, Hellwing, Wojciech A., Koyama, Kazuya, Llinares, Claudio & Zhao, Gong-Bo (2017). Speeding up N-body simulations of modified gravity: Chameleon screening models. Journal of Cosmology and Astroparticle Physics 2017(02): 050.
  • Bose, S., Hellwing, W. A., Frenk, C. S., Jenkins, A., Lovell, M. R., Helly, J. C., Li, B., Gonzalez-Perez, V. & Gao, L. (2017). Substructure and galaxy formation in the Copernicus Complexio warm dark matter simulations. Monthly Notices of the Royal Astronomical Society 464(4): 4520-4533.
  • Lee, Jounghun & Li, Baojiu (2017). The Effect of Modified Gravity on the Odds of the Bound Violations of the Turn-around Radii. The Astrophysical Journal 842(1): 2.
  • Leo M., Baugh C. M., Li B. & Pascoli S. (2017). The effect of thermal velocities on structure formation in N-body simulations of warm dark matter. Journal of Cosmology and Astroparticle Physics 2017(11): 017.
  • Shirasaki, Masato, Nishimichi, Takahiro, Li, Baojiu & Higuchi, Yuichi (2017). The imprint of f(R) gravity on weak gravitational lensing II: Information content in cosmic shear statistics. Monthly Notices of the Royal Astronomical Society 466(2): 2402-2417.
  • Barreira, Alexandre, Bose, Sownak, Li, Baojiu & Llinares, Claudio (2017). Weak lensing by galaxy troughs with modified gravity. Journal of Cosmology and Astroparticle Physics 2017(02): 031.
  • He J.-h. & Li B. (2016). Accurate method of modeling cluster scaling relations in modified gravity. Physical Review D 93(12): 123512.
  • Ceron-Hurtado, Juan, He, Jianhua & Li, Baojiu (2016). Can background cosmology hold the key for modified gravity tests? Physical Review D 94(6): 064052.
  • Cataneo, Matteo, Rapetti, David, Lombriser, Lucas & Li, Baojiu (2016). Cluster abundance in chameleon f(R) gravity I: toward an accurate halo mass function prediction. Journal of Cosmology and Astroparticle Physics 2016(12): 024.
  • Li, B., He, J. & Gao, L. (2016). Cluster gas fraction as a test of gravity. Monthly Notices of the Royal Astronomical Society 456(1): 146-155.
  • Liu, Xiangkun, Li, Baojiu, Zhao, Gongbo, Chiu, Mu-Chen, Fang, Wei, Pan, Chuzhong, Wang, Qiao, Du, Wei, Yuan, Shuo, Fu, Liping & Fan, Zuhui (2016). Constraining f(R) Gravity Theory Using Weak Lensing Peak Statistics from the Canada-France-Hawaii-Telescope Lensing Survey. Physical Review Letters 117(5): 051101.
  • Stark, A., Miller, C. J., Kern, N., Gifford, D., Zhao, G.-B., Li, B., Koyama, K. & Nichol, R. C. (2016). Probing theories of gravity with phase space-inferred potentials of galaxy clusters. Physical Review D 93(8): 084036.
  • Barreira, Alexandre, Llinares, Claudio, Bose, Sownak & Li, Baojiu (2016). RAY-RAMSES: a code for ray tracing on the fly in N-body simulations. Journal of Cosmology and Astroparticle Physics 2016(05): 001.
  • He, Jian-hua, Li, Baojiu & Baugh, Carlton M. (2016). Subhalo abundance matching in f(R) gravity. Physical Review Letters 117(22): 221101.
  • Bose, S., Hellwing, W. A., Frenk, C. S., Jenkins, A., Lovell, M. R., Helly, J. C. & Li, B. (2016). The Copernicus Complexio: Statistical Properties of Warm Dark Matter Haloes. Monthly Notices of the Royal Astronomical Society 455(1): 318-333.
  • King, L. J., Clowe, D. I. Coleman, J. E., Russell, H. R., Santana, R., White, J. A., Canning, R. E. A., Deering, N. J., Fabian, A. C., Lee, B. E., Li, B. & McNamara, B. R. (2016). The Distribution of Dark and Luminous Matter in the Unique Galaxy Cluster Merger Abell 2146. Monthly Notices of the Royal Astronomical Society 459(1): 517-527.
  • Corbett Moran, C., Teyssier, R. & Li, B. (2015). Chameleon f(R) gravity on the Virgo cluster scale. Monthly Notices of the Royal Astronomical Society 448(1): 307-327.
  • Ling, C., Wang, Q., Li, R., Li, B., Wang, J. & Gao, L. (2015). Distinguishing GR and f(R) gravity with the gravitational lensing Minkowski functionals. Physical Review D 92(6): 064024.
  • He, J., Hawken, A. J., Li, B. & Guzzo, L. (2015). Effective dark matter halo catalog in f(R) gravity. Physical Review Letters 115(7): 071306.
  • He, J., Li, B. & Hawken, A. J. (2015). Effective dark matter power spectra in f(R) gravity. Physical Review D 92(10): 103508.
  • Shi, D., Li, B., Han, J., Gao, L. & Hellwing, W. A. (2015). Exploring the liminality: properties of haloes and subhaloes in borderline f(R) gravity. Monthly Notices of the Royal Astronomical Society 452(3): 3179-3191.
  • Thomas, D. B., Bruni, M., Koyama, K., Li, B. & Zhao, G. (2015). f(R) gravity on non-linear scales: The post-Friedmann expansion and the vector potential. Journal of Cosmology and Astroparticle Physics 2015(07): 051.
  • Barreira, A., Li, B., Jennings, E., Merten, J., King, L., Baugh, C. M. & Pascoli, S. (2015). Galaxy cluster lensing masses in modified lensing potentials. Monthly Notices of the Royal Astronomical Society 454(4): 4085-4102.
  • Barreira, A., Brax, P., Cless, S., Li, B. & Valageas, P. (2015). K-mouflage gravity models that pass Solar System and cosmological constraints. Physical Review D 91(12): 123522.
  • Barreira, A., Brax, P., Clesse, S., Li, B. & Valageas, P. (2015). Linear perturbations in K-mouflage cosmologies with massive neutrinos. Physical Review D 91(6): 063528.
  • Winther, H. A., Schmidt, F., Barreira, A., Arnold, C., Bose, S., Llinares, C., Baldi, M., Falck, B., Hellwing, W. A., Koyama, K., Li, B., Mota, D. F., Puchwein, E., Smith, R. & Zhao, G. (2015). Modified gravity N-body code comparison project. Monthly Notices of the Royal Astronomical Society 454(4): 4208-4234.
  • Mead, A., Peacock, J. A., Lombriser, L. & Li, B. (2015). Rapid simulation rescaling from standard to modified gravity models. Monthly Notices of the Royal Astronomical Society 452(4): 4203-4221.
  • Barreira, A., Bose, S. & Li, B. (2015). Speeding up N-body simulations of modified gravity: Vainshtein screening models. Journal of Cosmology and Astroparticle Physics 2015(12): 059.
  • Cai, Y., Padilla, N. & Li, B. (2015). Testing gravity using cosmic voids. Monthly Notices of the Royal Astronomical Society 451(1): 1036-1055.
  • Bose, S., Hellwing, W. A. & Li, B. (2015). Testing the quasi-static approximation in f(R) gravity simulations. Journal of Cosmology and Astroparticle Physics 2015(02): 034.
  • Zivick, P., Sutter, P. M., Wandelt, B. D., Li, B. & Lam, T. Y. (2015). Using cosmic voids to distinguish f(R) gravity in future galaxy surveys. Monthly Notices of the Royal Astronomical Society 451(4): 4215-4222.
  • Lam, T. Y., Clampitt, J., Cai, Y. & Li, B. (2015). Voids in Modified Gravity Reloaded: Eulerian Void Assignment. Monthly Notices of the Royal Astronomical Society 450(3): 3319-3330.
  • Barreira, A., Cautun, M., Li, B., Baugh, C. M. & Pascoli, S. (2015). Weak lensing by voids in modified lensing potentials. Journal of Cosmology and Astroparticle Physics 2015(08): 028.
  • Hellwing, W. A. , Barreira, A. , Frenk, C. S., Li, B. & Cole, S. (2014). Clear and measurable signature of modified gravity in the galaxy velocity field. Physical Review Letters 112(22): 221102.
  • Zu, Y., Weinberg, D. H., Jennings, E., Li, B. & Wyman, M. (2014). Galaxy infall kinematics as a test of modified gravity. Monthly Notices of the Royal Astronomical Society 445(2): 1885-1897.
  • Barreira, A. , Li, B., Hellwing, W. A., Lombriser, L., Baugh, C. M. & Pascoli, S. (2014). Halo model and halo properties in Galileon gravity cosmologies. Journal of Cosmology and Astroparticle Physics 2014: 029.
  • Lombriser, L., Koyama, K. & Li, B. (2014). Halo modelling in chameleon theories. Journal of Cosmology and Astroparticle Physics 03: 021.
  • Shim, J., Lee, J. & Li, B. (2014). Massive gravity wrapped in the cosmic web. The Astrophysical Journal 784(1): 84.
  • Barreira, A., Li, B., Baugh, C. & Pascoli, S. (2014). Modified gravity with massive neutrinos as a testable alternative cosmological model. Physical Review D 90(2): 023528.
  • Barreira, A., Li, B., Hellwing, W. A., Baugh, C. & Pascoli, S. (2014). Nonlinear structure formation in Nonlocal Gravity. Journal of Cosmology and Astroparticle Physics 2014(09): 031.
  • He, J. Li, B., Hawken, A. J. & Granett, B. R. (2014). Revisiting the screening mechanism in f(R) gravity. Physical Review D 90: 103505.
  • Cai, Y., Li, B., Cole, S., Frenk, C. S. & Neyrinck, M. (2014). The Integrated Sachs-Wolfe effect in f(R) gravity. Monthly Notices of the Royal Astronomical Society 439(3): 2978-2989.
  • Barreira, A., Li, B., Baugh, C. M. & Pascoli, S. (2014). The observational status of Galileon gravity after Planck. Journal of Cosmology and Astroparticle Physics 2014(08): 059.
  • Falck, B., Koyama, K., Zhao, G. & Li, B. (2014). The Vainshtein mechanism in the cosmic web. Journal of Cosmology and Astroparticle Physics 2014(07): 058.
  • Li, B., Zhao, G. & Koyama, K. (2013). Exploring Vainshtein mechanism on adaptively refined meshes. Journal of Cosmology and Astroparticle Physics 2013(05): 023.
  • Hellwing, W. A., Li, B., Frenk, C. S. & Cole, S. M. (2013). Hierarchical clustering in chameleon f(R) gravity. Monthly Notices of the Royal Astronomical Society 435(4): 2806-2821.
  • Lombriser, L., Li, B., Koyama, K. & Zhao, G. (2013). Modeling halo mass functions in chameleon f(R) gravity. Physical Review D 87(12): 123511.
  • Lee, J., Zhao, G., Li, B. & Koyama, K. (2013). Modified gravity spins up galactic halos. The Astrophysical Journal 763(1): 28.
  • Barreira, A., Li, B., Hellwing, W. A., Baugh, C. M. & Pascoli, S. (2013). Nonlinear structure formation in the cubic Galileon gravity model. Journal of Cosmology and Astroparticle Physics 2013(10): 027.
  • Barreira, A., Li, B., Sanchez, A., Baugh, C. M. & Pascoli, S. (2013). Parameter space in Galileon gravity models. Physical Review D 87(10): 103511.
  • He, J. H., Li, B. & Jing, Y. (2013). Revisiting the matter power spectra in f(R) gravity. Physical Review D 88(10): 103507.
  • Li, B., Barreira, A., Baugh, C. M., Hellwing, W. A., Koyama, K., Pascoli, S. & Zhao, G. (2013). Simulating the quartic Galileon gravity model on adaptively refined meshes. Journal of Cosmology and Astroparticle Physics 2013(11): 12.
  • Barreira, A., Li, B., Baugh, C. M. & Pascoli, S. (2013). Spherical collapse in Galileon gravity: fifth force solutions, halo mass function and halo bias. Journal of Cosmology and Astroparticle Physics 11: 056.
  • Brax, P., Davis, A.-C., Li, B., Winther, H. A. & Zhao, G.-B. (2013). Systematic simulations of modified gravity: chameleon models. Journal of Cosmology and Astroparticle Physics 2013(04): 029.
  • Zhao, H., Peacock, J. & Li, B. (2013). Testing gravity theories via transverse Doppler and gravitational redshifts in galaxy clusters. Physical Review D 88(4): 043013.
  • Li, B., Hellwing, W. A., Koyama, K., Zhao, G., Jennings, E. & Baugh, C. M. (2013). The non-linear matter and velocity power spectra in f(R) gravity. Monthly Notices of the Royal Astronomical Society 428(1): 743-755.
  • Clampitt, Joseph Cai, Yan-Chuan & Li, B (2013). Voids in modified gravity: excursion set predictions. Monthly Notices of the Royal Astronomical Society 431(1): 749-766.
  • Li, B. & Efstathiou, G. (2012). An extended excursion set approach to structure formation in chameleon models. Monthly Notices of the Royal Astronomical Society 421(2): 1431-1442.
  • Lombriser, L., Koyama, K., Zhao, G. & Li, B. (2012). Chameleon f(R) gravity in the virialized cluster. Physical Review D 85(12): 124054.
  • Li, B., Zhao, G., Teyssier, R. & Koyama, K. (2012). ECOSMOG: an Efficient COde for Simulating MOdified Gravity. Journal of Cosmology and Astroparticle Physics 2012(01): 051.
  • Winther, H. A., Mota, D. F. & Li, B. (2012). Environment dependence of dark matter halos in symmetron modified gravity. The Astrophysical Journal 756(2): 166.
  • Lam, T. Y. & Li, B. (2012). Excursion set theory for modified gravity: correlated steps, mass functions and halo bias. Monthly Notices of the Royal Astronomical Society 426(4): 3260-3270.
  • Li, B. & Lam, T. Y. (2012). Excursion set theory for modified gravity: Eulerian versus Lagrangian environments. Monthly Notices of the Royal Astronomical Society 425(1): 730-739.
  • Li, B., Zhao, G. & Koyama, K. (2012). Halos and Voids in f(R) Gravity. Monthly Notices of the Royal Astronomical Society 421(4): 3481-3487.
  • Barreira, A., Li, B., Baugh, C. M. & Pascoli, S. (2012). Linear perturbations in Galileon gravity models. Physical Review D 86(12): 124016.
  • Brax, P., Davis, A.-C. & Li, B. (2012). Modified gravity tomography. Physics Letters B 715(1-3): 38.
  • Jennings, E., Baugh, C. M., Li, B., Zhao, G. & Koyama, K. (2012). Redshift-space distortions in f(R) gravity. Monthly Notices of the Royal Astronomical Society 425(3): 2128-2143.
  • Davis, A.-C., Li, B., Mota, D. F. & Winther, H. A. (2012). Structure formation in the symmetron model. The Astrophysical Journal 748(1): 61.
  • Brax, P., Davis, A.-C., Li, B., Winther, H. A. & Zhao, G.-B. (2012). Systematic simulations of modified gravity: symmetron and dilaton models. Journal of Cosmology and Astroparticle Physics 2012(10): 002.
  • Li, B. (2012). Testing gravity on cosmological scales. Astronomy & Geophysics 53(4): 4.37-4.41.
  • Brax, P., Davis, A.-C., Li, B & Winther, H. A. (2012). Unified description of screened modified gravity. Physical Review D 86(4): 044015.
  • Li, B., King, L. J., Zhao, G. & Zhao, H. (2011). An analytic ray-tracing algorithm for weak lensing. Monthly Notices of the Royal Astronomical Society 415(1): 881-892.
  • Li, B., Sotiriou, T.P. & Barrow, J.D. (2011). f(T) Gravity and local Lorentz invariance. Physical Review D 83(6): 064035.
  • Sotiriou, T.P., Li, B. & Barrow, J.D. (2011). Generalizations of teleparallel gravity and local Lorentz symmetry. Physical Review D 83: 104030.
  • Li, B., Sotiriou, T.P. & Barrow, J.D. (2011). Large-scale structure in f(T) gravity. Physical Review D 83: 104017.
  • Brax, P., van de Bruck, C., Davis, A.-C., Li, B., Schmauch, B. & Shaw, D.J. (2011). Linear growth of structure in the symmetron model. Physical Review D 84: 123524.
  • Li, B. & Barrow, J.D. (2011). N-body simulations for coupled scalar field cosmology. Physical Review D 83(2): 024007.
  • Li, B., Mota, D. F. & Barrow, J. D. (2011). N-body simulations for extended quintessence models. The Astrophysical Journal 728(2): 109.
  • Zhao, G., Li, B. & Koyama, K. (2011). N-body simulations for f(R) gravity using a self-adaptive particle-mesh code. Physical Review D 83(4): 044007.
  • Brax, P., van de Bruck, C., Davis, A.-C., Li, B. & Shaw, D.J. (2011). Nonlinear structure formation with the environmentally dependent dilaton. Physical Review D 83: 104026.
  • Li, B. & Barrow, J. D. (2011). On the effects of coupled scalar fields on structure formation. Monthly Notices of the Royal Astronomical Society 413(1): 262-270.
  • Zhao, G., Li, B. & Koyama, K. (2011). Testing gravity using the environmental dependence of dark matter halos. Physical Review Letters 107(7): 071303.
  • Li, B., Mota, D. F. & Barrow, J. D. (2011). Varying alpha from N-body simulations. The Astrophysical Journal 728(2): 108.
  • Li, B. (2011). Voids in coupled scalar field cosmology. Monthly Notices of the Royal Astronomical Society 411(4): 2615-2627.
  • Zhao, H. & Li, B. (2010). Dark fluid: A unified framework for modified Newtonian dynamics, dark matter, and dark energy. The Astrophysical Journal 712(1): 130-141.
  • Zhao, H., Li, B. & Bienaymé, O. (2010). Modified Kepler's law, escape speed and two-body problem in MOND-like theories. Physical Review D 82(10): 103001.
  • Zhao, H., Maccio, A., Li, B., Hoekstra, H. & Feix, M. (2010). Structure formation by fifth force: power spectrum from N-Body simulations. The Astrophysical Journal Letters 712(2): L179–L183.
  • Li, B. & Zhao, H. (2010). Structure formation by the fifth force: segregation of baryons and dark matter. Physical Review D 81(10): 104047.
  • Li, B. & Zhao, H. (2009). A realistic cosmology without cold dark matter. Physical Review D 80: 064007.
  • Li, B. & Barrow, J. D. (2009). Does bulk viscosity create a Viable unified dark matter model? Physical Review D 79: 103521.
  • Li, B., Mota, D. F. & Shaw, D. J. (2009). Indistinguishable macroscopic behaviour of Palatini gravities and general relativity. Classical and Quantum Gravity 26(5): 055018.
  • Li, B. & Zhao, H. (2009). Structure formation by fifth force I: N-body versus linear simulations. Physical Review D 80: 044027.
  • Halle, A., Zhao, H. & Li, B. (2008). A Nonuniform Dark Energy Fluid: Perturbation Equations. The Astrophysical Jounral Supplement Series 177(1): 1-13.
  • Li, B., Mota, D. F. & Barrow, J. D. (2008). Detecting a Lorentz-violating field in cosmology. Physical Review D 77: 024032.
  • Li, B., Mota, D. F. & Shaw, D. J. (2008). Microscopic and macroscopic behaviours of Palatini modified gravity theories. Physical Review D 78: 064018.
  • Li, B., Barrow, J. D., Mota, D. F. & Zhao, H. (2008). Testing alternative theories of dark matter with the CMB. Physical Review D 78: 064021.
  • Barrow, J. D. & Li, B. (2008). Varying-alpha cosmologies with potentials. Physical Review D 78: 083536.
  • Li, B., Chan, K.-C. & Chu, M.-C. (2007). Constraints on f(R) cosmology in the Palatini formalism. Physical Review D 76: 024002.
  • Li, B. & Barrow, J. D. (2007). The cosmology of f(R) gravity in the metric variational approach. Physical Review D 75: 084010.
  • Li, B., Barrow, J. D. & Mota, D. F. (2007). The cosmology of modified Gauss-Bonnet gravity. Physical Review D 76: 044027.
  • Li, B., Barrow, J. D. & Mota, D. F. (2007). The cosmology of Ricci-tensor-squared gravity in the Palatini variational approach. Physical Review D 76: 104047.
  • Li, B. & Chu, M.-C. (2006). Big bang nucleosynthesis constraints on universal extra dimensions and varying fundamental constants. Physical Review D 73: 025004.
  • Li, B. & Chu, M.-C. (2006). Big bang nucleosynthesis with an evolving radion in the Brane-world scenario. Physical Review D 73: 023509.
  • Li, B. & Chu, M.-C. (2006). CMB and matter power spectra of early f(R) cosmology in Palatini formalism. Physical Review D 74: 104010.
  • Li, B., Chu, M.-C., Cheung, K.-C. & Tang, A. (2005). Dark energy as a signature of extra dimensions. astro-ph/0501367.

Conference Paper

  • Cai, Y., Padilla, N. & Li, B. (2015), Testing gravity using void profiles, The Zeldovich Universe. Tallinn, Estonia, Tallinn.
  • Padilla, Paz, D., Lares, M., Ceccarelli, L., Garcia Lambas, D., Cai, Y. & Li, B. (2015), Void dynamics, The Zeldovich Universe. Tallinn, Estonia, Tallinn.

Supervises