Simulating bosons in magnetic field with photonics

Mohammad Hafezi; Mikhail Lukin; Eugene Demler; Edo Waks; Jacob Taylor

Simulating bosons in magnetic field with photonics

POSTER

Abstract

We propose a 2D photonic system where the dynamics of photons are analogous to charged bosons in a magnetic field. We show that a magnetic field can be `simulated' for photons without using a magnetic field or any time-reversal symmetry breaking mechanism. We apply a technique to probe transport properties of such systems. In particular, the underlying energy spectrum is manifested in the transmission and reflection coefficients in form of a Hofstadter butterfly. We also discuss the effect of loss in such systems and investigate the system's robustness to impurities.

Authors

Mohammad Hafezi
- Joint Quantum Institute; University of Maryland, College Park
- Joint Quantum Institute
Mikhail Lukin
- Harvard University
Eugene Demler
- Harvard University
Edo Waks
- Joint Quantum Institute
Jacob Taylor
- Joint Quantum Institute/National Institute of Standards and Technology, Gaithersburg, MD
- Joint Quantum Institute; National Institute of Standards and Technology, Gaithersburg, MD
- Joint Quantum Institute