Experimental Implementation of Higher Order Nonlinear Processes by Cascading Lower Order Nonlinear Processes
ORAL
Abstract
Nonlinear processes of order greater than four are gaining importance in quantum electrodynamics. In the case of superconducting circuits, the natural way to get higher order nonlinearities is through the higher order terms in the cosine potential of the Josephson junction. However, the magnitude of such nonlinearities reduces as we go to higher terms in the cosine expansion. Here, we explore another route to obtain higher order nonlinearities via cascading lower order nonlinear processes using a Raman transition. Specifically, we present experimental data demonstrating the cascading of a pair of two-photon conversion processes into a four-photon conversion process. Such a scheme will be useful in engineering four-photon driven-dissipative operations.
*Work supported by ARO, AFOSR and ONR.
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Presenters
Shantanu Mundhada
Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Authors
Shantanu Mundhada
Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Alexander Grimm
PHELIQS, CEA Grenoble
Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Yale Univ
Jayameenakshi Venkatraman
Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Zlatko Minev
Department of Applied Physics, Yale University
Yale
Department of Applied Physics, Yale Univ
Applied Physics, Yale University
Steven Touzard
Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Yale Univ
Shyam Shankar
Applied Physics, Yale University
Department of Applied Physics, Yale University
Department of Applied Physics, Yale Univ
Yale Univ
Mazyar Mirrahimi
Applied Physics, Yale Univ
Yale University
Inria and Yale Quantum Institute
Yale Quantum Institute, Yale University, New Haven, CT, United States; INRIA
