### Research Interest

General relativity, quantum cosmology, thermodynamics

Prof. Good received the B.Sc. in Physics with Highest Honors from the Georgia Institute of Technology, USA, under the advisement of Prof. David R. Finkelstein, (PhD, MIT; whose coordinates removed the singularity in the Schwarzschild metric convincing the physics community of the physical existence of black holes). Prof. Good then attended the University of Hawaii as a Manoa Scholar in the Physics and Astronomy Department and the Institute of Astronomy.

Prof. Good obtained the M.Sc. and PhD. in Physics from the University of North Carolina at Chapel Hill (where Peter Higgs wrote his paper on the Higgs boson-2013 Nobel Prize). He was advised by both Prof. Charles R. Evans (Caltech post-doc under Kip Thorne, 2017 Nobel Prize); and Prof. Paul R. Anderson (PhD, UCSB under James Hartle of the Hartle-Hawking wavefunction of the universe). As a MSc student, Prof. Good took General Relativity at Duke University from Prof. Ronen Plesser (PhD Harvard- a well-known string theorist). As a PhD. student, Prof. Good was a visiting researcher at the Department of Applied Mathematics and Theoretical Physics at Cambridge University in 2009.

From 2011 to 2014 he was a Postdoctoral Scientist and Senior Research Fellow in Singapore at the Institute of Advanced Studies at the Nanyang Technological University in the quantum cosmology research group. Here he helped discover black hole quantum vortices, and did pioneering work in relativistic superfluidity with MIT Prof. Kerson Huang (who authored the widely used graduate textbook, Statistical Mechanics).

In August 2014 he joined Nazarbayev University as Assistant Professor. He has authored papers in high impact, peer-reviewed, international journals such as the Journal of High Energy Physics, New Journal of Physics and Physical Review D. He has won awards from the American Association of Physics Teachers, the National Science Foundation, NASA, Raytheon Company, the American Physical Society, MIT, and the Julian Schwinger Foundation. He was awarded the Outstanding Teaching Award from the University of North Carolina, and the University-level Teaching Award from Nazarbayev University.

His recent work with MIT physicist Prof. Frank Wilczek (2004 Nobel Prize) and Eminent Scientist Eric Linder (UC-Berkeley) has solved the information loss problem in the moving mirror models for black hole radiation; a nearly 50 year old puzzle on black holes put forth by Stephen Hawking.

Full list of publications: Google Scholar, Inspire

Black hole - Moving mirror I: An exact correspondence

Paul R. Anderson, Michael R.R. Good, Charles R. Evans, **2018** In : 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, p. 1701-1704

Black hole - Moving mirror II: Particle creation

Michael Good , Paul R. Anderson, Charles R. Evans, **2018** In : 14th Marcel Grossman Meeting On Recent Developments in Theoretical and Experimental General Relativity, Astrophysics and Relativistic Field Theories, Proceedings, p. 1705-1708

Reflecting at the Speed of Light

Michael Good Robert Rogers, **2017** In : Memorial Volume for Kerson Huang

Finite thermal particle creation of Casimir light

Michael R.R. Good, Eric V. Linder, Frank Wilczek, **2020** In : . 35 , p.3

Moving mirror model for quasithermal radiation fields

Michael R.R. Good, Eric V. Linder, Frank Wilczek, **2020** In : . 101 , p.2

Unruh-like effects

Michael Good, Benito A. Juárez-Aubry, Dimitris Moustos, Maksat Temirkhan, **2020** In : . 2020 , p.6

Finite energy but infinite entropy production from moving mirrors

Michael Good , Eric V. Linder, **2019** In : . 99 , p.2

Late time approach to Hawking radiation

Paul R. Anderson, Raymond D. Clark, Alessandro Fabbri, Michael R.R. Good, **2019** In : . 100 , p.6

Stationary Worldline Power Distributions

Michael Good, Maksat Temirkhan, Thomas Oikonomou, **2019** In : .

Eternal and evanescent black holes and accelerating mirror analogs

Michael Good Robert Rogers, Eric V. Linder, **2018** In : . 97 , p.6

On a nonlinear Newtonian gravity and charging a black hole

Michael Good Robert Rogers, **2018** In : . 86 , p.6 , p. 453-459

Spacetime continuity and quantum information loss

Michael R.R. Good, **2018** In : . 4 , p.11

On a Uniformly Accelerated Point Charge moving along a Cusp

Michael Good Robert Rogers, **2017** In : .

On horizonless temperature with an accelerating mirror

Michael R.R. Good, Khalykbek Yelshibekov, Yen Chin Ong, **2017** In : . 2017 , p.3

Slicing the Vacuum

Michael Good Robert Rogers, **2017** In : .

Uniformly accelerated point charge along a cusp

M. R.R. Good, T. Oikonomou, G. Akhmetzhanova, **2017** In : . 338 , p.9-10 , p. 1151-1155

Geometric creation of quantum vorticity

Michael R R Good, Chi Xiong, Alvin J K Chua, Kerson Huang, **2016** In : . 18 , p.11

Mirror reflections of a black hole

Michael R.R. Good, Paul R. Anderson, Charles R. Evans, **2016** In : . 94 , p.6

Are black holes springlike?

Michael R.R. Good, Yen Chin Ong, **2015** In : . 91 , p.4

Signatures of energy flux in particle production

Michael R.R. Good, Yen Chin Ong, **2015** In : . 2015 , p.7

Relativistic superfluidity and vorticity from the nonlinear Klein-Gordon equation

Chi Xiong, Michael R.R. Good, Yulong Guo, Xiaopei Liu, Kerson Huang, **2014** In : . 90 , p.12

On spin-statistics and bogoliubov transformations in flat space-time with acceleration conditions

Michael R.R. Good, **2013** In : . 28 , p.2

Time dependence of particle creation from accelerating mirrors

Michael R.R. Good, Paul R. Anderson, Charles R. Evans, **2013** In : . 88 , p.2

Quantum Mechanics

Statistical Mechanics

Classical Mechanics

Classical Electrodynamics

Solid State Physics

Mathematical Methods

Thermodynamics and Statistical Physics

General Relativity and Astrophysics

Astronomy