Quantum Jump Approach to Driven-Dissipative Atom Dynamics

Puigdevall Rubert, Albert

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TFG-Puigdevall-Rubert-Albert.pdf (8.92 MB)

Document type

Bachelor thesis

Publication date

2025-06

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Please use this identifier to cite or link to this item: https://hdl.handle.net/2445/223218

Quantum Jump Approach to Driven-Dissipative Atom Dynamics

Authors

Puigdevall Rubert, Albert

Director/Tutor

Moreno Cardoner, Maria

Abstract

Spontaneous photon emission by atoms is a fundamental quantum process with significant implications for quantum technologies. We study the dynamics of N laser-driven two-level atoms interacting with the electromagnetic vacuum and spontaneously emitting photons. Although the framework of master equations for the density matrix provides a rigorous description of this process, its computational cost scales exponentially as ∼ 22N. As an alternative, we implement the quantum jump method, a stochastic approach based on averaging over quantum trajectories. We begin with the case of a single atom and then extend the analysis to a chain of closely spaced atoms, focusing on the error scaling in the stochastic method. By comparing computational performance, we find that the quantum jump approach becomes increasingly advantageous for larger systems. These results establish quantum trajectories as a reliable and efficient tool for simulating collective spontaneous emission in complex quantum systems

Description

Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2025, Tutora: Mariona Moreno Cardoner

Subject

Moments dipolars, Mètode de Montecarlo, Treballs de fi de grau

Subject (English)

Dipole moments, Monte Carlo method, Bachelor's theses

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Treballs Finals de Grau (TFG) - Física

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Citation

PUIGDEVALL RUBERT, Albert. Quantum Jump Approach to Driven-Dissipative Atom Dynamics. [consulted: 7 of June of 2026]. Available at: https://hdl.handle.net/2445/223218

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Quantum Jump Approach to Driven-Dissipative Atom Dynamics

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