Lars Hernquist
Affiliations: | Astronomy | Harvard University, Cambridge, MA, United States |
Area:
Astrophysics PhysicsWebsite:
http://astronomy.fas.harvard.edu/people/lars-hernquistGoogle:
"Lars Hernquist"Bio:
http://inspirehep.net/record/1028797?ln=en
Hernquist, Lars, Thermal and magnetic properties of neutron stars., Dissertation (Ph.D.), California Institute of Technology (1985).
Parents
Sign in to add mentor| Roger David Blandford | grad student | 1985 | Caltech | |
| (Thermal and magnetic properties of neutron stars.) | ||||
Children
Sign in to add trainee| Luke Zoltan Kelley | grad student | Harvard (Physics Tree) | |
| Kathryn V. Johnston | grad student | 1996 | UC Santa Cruz |
| Romeel S. Davé | grad student | 1998 | UC Santa Cruz |
| Don A. Lloyd | grad student | 2003 | Harvard |
| Pinaki Chatterjee | grad student | 2004 | Harvard |
| Brant E. Robertson | grad student | 2006 | Harvard |
| Loren Hoffman | grad student | 2007 | Harvard |
| Philip F. Hopkins | grad student | 2008 | Harvard (Physics Tree) |
| Joshua D. Younger | grad student | 2009 | Harvard |
| Claude-andré Faucher-giguère | grad student | 2010 | Harvard |
| Gurtina Besla | grad student | 2011 | Harvard |
| Christopher Charles Hayward | grad student | 2012 | Harvard |
| Diego J. Munoz Anguita | grad student | 2013 | Harvard |
| Gregory F. Snyder | grad student | 2013 | Harvard |
| Diego Jose Muñoz | grad student | 2006-2013 | Harvard |
| Paul A. Torrey | grad student | 2014 | Harvard |
| Philip Mocz | grad student | 2012-2017 | Harvard |
| Blakesley K. Burkhart | post-doc | Harvard College | |
| Laura Virginia Sales | post-doc | Harvard (Physics Tree) |
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Publications
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| Wadekar D, Thiele L, Villaescusa-Navarro F, et al. (2023) Augmenting astrophysical scaling relations with machine learning: Application to reducing the Sunyaev-Zeldovich flux-mass scatter. Proceedings of the National Academy of Sciences of the United States of America. 120: e2202074120 |
| Martín-Navarro I, Pillepich A, Nelson D, et al. (2021) Anisotropic satellite galaxy quenching modulated by black hole activity. Nature. 594: 187-190 |
| Kim C, Ostriker EC, Somerville RS, et al. (2020) First results from SMAUG: Characterization of Multiphase Galactic Outflows from a Suite of Local Star-Forming Galactic Disk Simulations The Astrophysical Journal. 900: 61 |
| Du M, Ho LC, Debattista VP, et al. (2020) Kinematic Decomposition of IllustrisTNG Disk Galaxies: Morphology and Relation with Morphological Structures The Astrophysical Journal. 895: 139 |
| Li Y, Habouzit M, Genel S, et al. (2020) Correlations between Black Holes and Host Galaxies in the Illustris and IllustrisTNG Simulations The Astrophysical Journal. 895: 102 |
| DeFelippis D, Genel S, Bryan GL, et al. (2020) The Angular Momentum of the Circumgalactic Medium in the TNG100 Simulation The Astrophysical Journal. 895: 17 |
| Shi J, Wang H, Mo H, et al. (2020) The Formation History of Subhalos and the Evolution of Satellite Galaxies The Astrophysical Journal. 893: 139 |
| Sales LV, Navarro JF, Penafiel L, et al. (2020) The formation of ultradiffuse galaxies in clusters Monthly Notices of the Royal Astronomical Society. 494: 1848-1858 |
| Mocz P, Fialkov A, Vogelsberger M, et al. (2020) Galaxy formation with BECDM – II. Cosmic filaments and first galaxies Monthly Notices of the Royal Astronomical Society. 494: 2027-2044 |
| Truong N, Pillepich A, Werner N, et al. (2020) X-ray signatures of black hole feedback: hot galactic atmospheres in IllustrisTNG and X-ray observations Monthly Notices of the Royal Astronomical Society. 494: 549-570 |