Resonante kanalen voor amplitudedemping op meerdere niveaus

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Resonante amplitudedempingskanalen met meerdere niveaus PlatoBlockchain-gegevensintelligentie. Verticaal zoeken. Ai.

Stefano Chesa^1,2 en Vittorio Giovannitti¹

¹NEST, Scuola Normale Superiore en Istituto Nanoscienze-CNR, I-56126 Pisa, Italië
²Electrical and Computer Engineering, University of Illinois Urbana-Champaign, Urbana, Illinois, 61801, VS

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Abstract

We introduceren een nieuwe set kwantumkanalen: resonante multilevel amplitudedemping (ReMAD) kanalen. Ze kunnen onder andere energiedissipatie-effecten beschrijven in atomaire systemen met meerdere niveaus die worden veroorzaakt door de interactie met een bosonische omgeving zonder temperatuur. In tegenstelling tot de reeds bekende klasse van kanalen met meerdere niveaus van amplitudedemping (MAD), maakt deze nieuwe klasse kaarten de aanwezigheid mogelijk van een omgeving die niet in staat is overgangen met identieke energiehiaten te onderscheiden. Na het karakteriseren van de algebra van hun compositieregels, door het geval van qutrit te analyseren, laten we zien dat deze nieuwe set kanalen afbreekbaarheid en anti-afbreekbaarheid kan vertonen in grote delen van de toegestane parameterruimte. Daar berekenen we hun kwantumcapaciteit en particuliere klassieke capaciteit. We laten zien dat deze capaciteiten ook precies kunnen worden berekend in gebieden van de parameterruimte waar de kanalen niet afbreekbaar of antiafbreekbaar zijn.

► BibTeX-gegevens

@article{Chessa2023resonantmultilevel, doi = {10.22331/q-2023-01-19-902}, url = {https://doi.org/10.22331/q-2023-01-19-902}, title = {Resonant { M}ultilevel {A}mplitude {D}amping {C}hannels}, auteur = {Chessa, Stefano en Giovannetti, Vittorio}, tijdschrift = {{Quantum}}, issn = {2521-327X}, uitgever = {{Verein zur F{“{o}}rderung des Open Access Publizierens in den Quantenwissenschaften}}, volume = {7}, pagina's = {902}, maand = jan, jaar = {2023} }

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