Control of open quantum systems via dynamical invariants
- URL: http://arxiv.org/abs/2311.13164v1
- Date: Wed, 22 Nov 2023 05:09:53 GMT
- Title: Control of open quantum systems via dynamical invariants
- Authors: Loris Maria Cangemi, Hilario Espin\'os, Ricardo Puebla, Erik
Torrontegui and Amikam Levy
- Abstract summary: Control quantum systems influenced by their environment using dynamical invariants.
Our strategy involves a reverse engineering method for formulating control protocols tailored to be resilient against environmental noise and dissipation.
The efficacy and practicality of our approach are demonstrated through the application to two fundamental models.
- Score: 0.0
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: In this work, we confront the challenge of controlling quantum systems that
are influenced by their environment, utilizing the theory of dynamical
invariants. Our strategy involves a reverse engineering method for formulating
control protocols like Shortcuts to Adiabaticity (STA), tailored to be
resilient against environmental noise and dissipation. This technique offers
two main advantages compared to other quantum control methods: firstly, it
incorporates the time-varying aspect of the dissipation factor in the master
equation, which arises from driving the system's Hamiltonian (the control
fields). Secondly, our method eliminates the need for iterative propagation of
the system state, a process that is typically resource-intensive. The efficacy
and practicality of our approach are demonstrated through the application to
two fundamental models: a two-level quantum system and a quantum harmonic
oscillator, each interacting with a thermal bath.
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