Related papers: Quantum stochastic analysis of non-linear driven light emission

Quantum stochastic analysis of non-linear driven light emission

URL: http://arxiv.org/abs/2508.09049v2
Date: Mon, 18 Aug 2025 10:17:22 GMT
Title: Quantum stochastic analysis of non-linear driven light emission
Authors: Philipp Stammer,
Abstract summary: We study the open system dynamics by solving the quantum Langevin equation for a non-linear driven cavity coupled to the environment.<n>For an unstructured environment without memory, we show that the emission characteristics of the intense driven cavity is isomorphic to the process of high harmonic generation and a non-linear antenna.
Score: 0.0
License: http://creativecommons.org/licenses/by-sa/4.0/
Abstract: This work extends quantum optical models of high harmonic generation by considering a quantum stochastic analysis of the field modes coupled to an environment. In particular, we study the open system dynamics by solving the quantum Langevin equation for a non-linear driven cavity coupled to the environment. For an unstructured environment without memory, we show that the emission characteristics of the intense driven cavity is isomorphic to the process of high harmonic generation and a non-linear antenna. This is achieved by using the quantum regression theorem for the Markovian dynamics, and further allows to obtain the upper bound of the radiated power due to the emitter fluctuations. This opens the path to connect current quantum optical approaches of HHG with open system descriptions and towards driven-dissipative systems in the non-linear regime.

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