SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012042140> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W2012042140 endingPage "780" @default.
W2012042140 startingPage "772" @default.
W2012042140 abstract "We examine the response of a coherently driven two-level atom interacting with a broadband squeezed vacuum to a probe beam of arbitrary intensity. The equations of motion for the reduced density matrix elements are numerically solved by nonperturbative matrix inversion methods. For large driving intensities, the absorption spectrum exhibits a number of multiphoton absorption peaks with increasing probe strength in a standard vacuum and in a squeezed vacuum with small photon numbers, while the multiphoton absorption peaks are wiped out for large squeezed photon numbers. Strong gain without inversion at line center can be obtained in the presence of the squeezed vacuum when the probe strength does not exceed the driving one. The absorption spectrum is phase sensitive. We also find the presence of remarkable, very narrow structures at line center. In general, the spectrum is symmetric when ensuremath{Phi}=0 and ensuremath{pi}; otherwise, it is asymmetric and displays a dispersivelike profile at line center." @default.
W2012042140 created "2016-06-24" @default.
W2012042140 creator A5008461609 @default.
W2012042140 creator A5076945936 @default.
W2012042140 date "1997-01-01" @default.
W2012042140 modified "2023-10-01" @default.
W2012042140 title "Absorption spectrum and gain without inversion of a driven two-level atom with arbitrary probe intensity in a squeezed vacuum" @default.
W2012042140 cites W1966192232 @default.
W2012042140 cites W1971767149 @default.
W2012042140 cites W1974907209 @default.
W2012042140 cites W1978146455 @default.
W2012042140 cites W1980530136 @default.
W2012042140 cites W1981127355 @default.
W2012042140 cites W1987289374 @default.
W2012042140 cites W1991517133 @default.
W2012042140 cites W1999910820 @default.
W2012042140 cites W2000665468 @default.
W2012042140 cites W2002079457 @default.
W2012042140 cites W2002337126 @default.
W2012042140 cites W2005495486 @default.
W2012042140 cites W2013655594 @default.
W2012042140 cites W2016147897 @default.
W2012042140 cites W2018340368 @default.
W2012042140 cites W2020372382 @default.
W2012042140 cites W2020696750 @default.
W2012042140 cites W2023227521 @default.
W2012042140 cites W2024114831 @default.
W2012042140 cites W2024763533 @default.
W2012042140 cites W2029586076 @default.
W2012042140 cites W2031105598 @default.
W2012042140 cites W2033482458 @default.
W2012042140 cites W2034389842 @default.
W2012042140 cites W2034557192 @default.
W2012042140 cites W2037633243 @default.
W2012042140 cites W2040864765 @default.
W2012042140 cites W2044458452 @default.
W2012042140 cites W2059801572 @default.
W2012042140 cites W2063566423 @default.
W2012042140 cites W2069353018 @default.
W2012042140 cites W2071368103 @default.
W2012042140 cites W2075190478 @default.
W2012042140 cites W2075227403 @default.
W2012042140 cites W2076679073 @default.
W2012042140 cites W2081376707 @default.
W2012042140 cites W2085097270 @default.
W2012042140 cites W2085231553 @default.
W2012042140 cites W2091114701 @default.
W2012042140 cites W2091537301 @default.
W2012042140 cites W2094671147 @default.
W2012042140 cites W2097279859 @default.
W2012042140 cites W2134559159 @default.
W2012042140 cites W2137938278 @default.
W2012042140 cites W2149268174 @default.
W2012042140 cites W2151445098 @default.
W2012042140 cites W3190999053 @default.
W2012042140 cites W4230299282 @default.
W2012042140 cites W4317528122 @default.
W2012042140 doi "https://doi.org/10.1103/physreva.55.772" @default.
W2012042140 hasPublicationYear "1997" @default.
W2012042140 type Work @default.
W2012042140 sameAs 2012042140 @default.
W2012042140 citedByCount "41" @default.
W2012042140 countsByYear W20120421402012 @default.
W2012042140 countsByYear W20120421402013 @default.
W2012042140 countsByYear W20120421402015 @default.
W2012042140 countsByYear W20120421402016 @default.
W2012042140 countsByYear W20120421402017 @default.
W2012042140 countsByYear W20120421402018 @default.
W2012042140 countsByYear W20120421402019 @default.
W2012042140 countsByYear W20120421402023 @default.
W2012042140 crossrefType "journal-article" @default.
W2012042140 hasAuthorship W2012042140A5008461609 @default.
W2012042140 hasAuthorship W2012042140A5076945936 @default.
W2012042140 hasConcept C119824511 @default.
W2012042140 hasConcept C120665830 @default.
W2012042140 hasConcept C121332964 @default.
W2012042140 hasConcept C125287762 @default.
W2012042140 hasConcept C149635348 @default.
W2012042140 hasConcept C159317903 @default.
W2012042140 hasConcept C184779094 @default.
W2012042140 hasConcept C41008148 @default.
W2012042140 hasConcept C56911000 @default.
W2012042140 hasConcept C58312451 @default.
W2012042140 hasConcept C62520636 @default.
W2012042140 hasConcept C84114770 @default.
W2012042140 hasConceptScore W2012042140C119824511 @default.
W2012042140 hasConceptScore W2012042140C120665830 @default.
W2012042140 hasConceptScore W2012042140C121332964 @default.
W2012042140 hasConceptScore W2012042140C125287762 @default.
W2012042140 hasConceptScore W2012042140C149635348 @default.
W2012042140 hasConceptScore W2012042140C159317903 @default.
W2012042140 hasConceptScore W2012042140C184779094 @default.
W2012042140 hasConceptScore W2012042140C41008148 @default.
W2012042140 hasConceptScore W2012042140C56911000 @default.
W2012042140 hasConceptScore W2012042140C58312451 @default.
W2012042140 hasConceptScore W2012042140C62520636 @default.
W2012042140 hasConceptScore W2012042140C84114770 @default.
W2012042140 hasIssue "1" @default.