Michael Kesden

Assistant Professor - Physics
kesden@utdallas.edu
972-883-3598
PHY1908
Tags: Physics

Professional Preparation

Ph.D. - Physics
California Institute of Technology - 2005
B. A. - Physics
Princeton University - 2000
Certificate - Applied and Computational Mathematics
Princeton University - 2000

Research Areas

Research Interests
Binary-Black-Hole Mergers Black holes are compact objects predicted by Einstein's theory of general relativity whose gravity is so intense that they possess event horizons.  I am interested in using astrophysical observations to predict where and how often these black holes merge with each other and using tools of general relativity such as post-Newtonian expansions, numerical-relativity simulations, and black-hole perturbation theory to calculate the electromagnetic signatures and gravitational waves produced in such mergers.   • Tidal Disruption Events Stars that wander too close to supermassive black holes will be disrupted when the black hole's gravitational tidal field overwhelms the star's self-gravity. Some of the debris from the tidally disrupted star will be accreted by the black hole, powering a bright electromagnetic flare that can be observed in X-rays, ultraviolet radiation, and optical light.  Relativistic effects may strongly affect both the rate and light curves of tidal disruption events.  I am interested in calculating these relativistic corrections in time for upcoming optical and X-ray surveys like LSST, Gaia, WFIRST-AFTA, and eROSITA.

Publications

D. Trifirò, R. O’Shaughnessy, D. Gerosa, E. Berti, M. Kesden, T. Littenberg, and U. Sperhake, Distinguishing black-hole spin-orbit resonances by their gravitational wave signatures. II. Full parameter estimation, Phys. Rev. D 93, 044071 (2016). 2016 - Publication
D. Gerosa and M. Kesden, PRECESSION. Dynamics of spinning black-hole binaries with PYTHON, accepted for publication in Phys. Rev. D. 2016 - Publication
M. Kesden, D. Gerosa, R. O’Shaughnessy, E. Berti, and U. Sperhake, Effective potentials and morphological transitions for binary black-hole spin precession, Phys. Rev. Lett. 114, 081103 (2015). 2015 - Publication
D. Gerosa, M. Kesden, U. Sperhake, E. Berti, and R. O’Shaughnessy, Multi-timescale analysis of phase transitions in precessing black-hole binaries, Phys. Rev. D 92, 064016 (2015). 2015 - Publication
D. Gerosa, M. Kesden, R. O’Shaughnessy, A. Klein, E. Berti, U. Sperhake, and D. Trifirò, Precession instability in binary black holes with aligned spins, Phys. Rev. Lett. 115, 141102 (2015). 2015 - Publication
D. Gerosa, R. O’Shaughnessy, M. Kesden, E. Berti, and U. Sperhake, Distinguishing black-hole spin-orbit resonances by their gravitational-wave signatures, Phys. Rev. D 89, 124025 (2014). 2014 - Publication
D. Gerosa, M. Kesden, E. Berti, R. O'Shaughnessy, and U. Sperhake, Resonant-plane locking and spin alignment in stellar-mass black-hole binaries: a diagnostic compact binary formation, Phys. Rev. D 87, 104028 (2013). 2013 - Publication
E. Berti, M.Kesden, and U. Sperhake, Effects of post-Newtonian spin alignment on the distribution of black-hole recoils, Phys. Rev. D 85, 124049 (2012). 2012 - Publication
M. Kesden, Black-hole spin dependence in the light curves of tidal disruption events, Phys. Rev. D 86, 064026 (2012). 2012 - Publication
M. Kesden, Tidal disruption rate of stars by spinning supermassive black holes, Phys. Rev. D 85, 024037 (2012). 2012 - Publication

Appointments

Assistant Professor
University of Texas at Dallas [2013–Present]
Postdoctoral Fellow
New York University [2010–2013]
Postdoctoral Scholar
California Institute of Technology [2008–2010]
Postdoctoral Fellow
University of Toronto [2005–2008]

Awards

Sloan Research Fellowship - Sloan Foundation [2015]
Topical Group in Gravitation Eary Career Lecture - American Physical Society [2013]
NASA Graduate Student Fellowship - NASA [2003]
NSF Graduate Fellowship - NSF [2000]

News Articles

Research Matters: NSF Program Puts Physics in the Spotlight
The Department of Physics at The University of Texas at Dallas enjoyed a summer under the microscope, showing students from across America their cutting-edge work.
      Six undergraduates spent 10 weeks at UT Dallas as part of the National Science Foundation’s Research Experiences for Undergraduates (REU), an internship program hosted by the department for the first time. The program is funded by a three-year, $266,961 grant from the foundation. Two other undergrads — Victoria Catlett, a Clark Scholar from UT Dallas, and Xingyi Wang, a Reed Scholarship recipient from Reed College in Portland, Oregon — participated in the program without funding from the foundation.

Affiliations

American Astronomical Society
2001/08
High Energy Astrophysics Division
American Physical Society
2012/04
Division of Astrophysics, Division of Gravitation, Texas Section
Phi Beta Kappa
2000/05
Sigma Xi Research Society
2000/05
Canadian Astronomical Society
2005/09–2008/05

Funding

Black-Hole Spin Precession and its Astrophysical Implications
$134,869 - National Science Foundation [2018/05–2019/05]
Black Holes: Bridges Between Astrophysics and Relativity
$50,000 - Alfred P. Sloan Foundation [2015/09–2017/09]
Tidal Disruption Events by Spinning Supermassive Black Holes
$208,227 - NASA [2018/05–2020/05]
Exploratory Integration: Learning Physics in a Synergistic Scaffolded Programming Environment
$1,018,429 - National Science Foundation [2017/09–2020/08]
REU Site: Summer Research Program in Experimental & Theoretical Physics at The University of Texas at Dallas
$287,362 - National Science Foundation [2018/01–2020/12]