A full quantum theory for phonon lasing in mixed-species and single trapped ions is presented, with analytic second-order coherence confirming lasing and proposals for non-classical squeezed states enabling up to 100x sensing sensitivity gains.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
verdicts
UNVERDICTED 2representative citing papers
Derives quantum-limited gain, noise, and clamping for acoustoelectric amplification in a piezoelectric-2DEG heterostructure, showing efficient operation for wavelengths longer than electron spacing.
citing papers explorer
-
Quantum theory for phonon lasing and non-classical state generation in mixed-species and single trapped ions
A full quantum theory for phonon lasing in mixed-species and single trapped ions is presented, with analytic second-order coherence confirming lasing and proposals for non-classical squeezed states enabling up to 100x sensing sensitivity gains.
-
Quantum-Limited Acoustoelectric Amplification in a Piezoelectric-2DEG Heterostructure
Derives quantum-limited gain, noise, and clamping for acoustoelectric amplification in a piezoelectric-2DEG heterostructure, showing efficient operation for wavelengths longer than electron spacing.