Hawking Radiation and Classical Tunneling: a Numerical Study

Author

Dmitriy Zhigunov, College of William and MaryFollow

Date Thesis Awarded

5-2017

Access Type

Honors Thesis -- Access Restricted On-Campus Only

Degree Name

Bachelors of Science (BS)

Department

Physics

Advisor

Eugene R. Tracy

Committee Members

Gina Hoatson

Nahum Zobin

Abstract

Unruh [1] demonstrated that black holes have an analogy in acoustics. Under this analogy the acoustic event horizon is defined by the set of points in which the local background flow exceeds the local sound speed. In past work [2], we demonstrated that under a white noise source, the acoustic event horizon will radiate at a thermal spectrum via a classical tunneling process. In this work, I summarize the theory presented in [2] and nondimensionalize it in order to reduce the dynamical equations to one parameter, the coupling coefficient η2. Since η2 is the sole parameter of the system, we are able to vary it in a numerical study of the dependence of the transmission coefficient on η2. This numerical work leads to the same functional dependence of the transmission coefficient on η2 as predicted in [2].

Recommended Citation

Zhigunov, Dmitriy, "Hawking Radiation and Classical Tunneling: a Numerical Study" (2017). Undergraduate Honors Theses. William & Mary. Paper 1067.
https://scholarworks.wm.edu/honorstheses/1067