J
Julio Gea-Banacloche
Researcher at University of Arkansas
Publications - 143
Citations - 5127
Julio Gea-Banacloche is an academic researcher from University of Arkansas. The author has contributed to research in topics: Photon & Qubit. The author has an hindex of 28, co-authored 137 publications receiving 4799 citations. Previous affiliations of Julio Gea-Banacloche include University of New Mexico & Quaid-i-Azam University.
Papers
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Electromagnetically induced transparency in ladder-type inhomogeneously broadened media: Theory and experiment
TL;DR: A theory of electromagnetically induced transparency in a three-level, ladder-type Doppler-broadened medium is developed, paying special attention to the case where the coupling and probe beams are counterpropagating and have similar frequencies, so as to reduce the total Dopplers width of the two-photon process.
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The ring laser gyro
Weng W. Chow,Julio Gea-Banacloche,Leno M. Pedrotti,Virgil E. Sanders,Wolfgang P. Schleich,Marlan O. Scully +5 more
TL;DR: A review of active and passive ring laser devices is given in this paper, with special emphasis given to the problems associated with the achievement of greater sensitivity and stability with respect to the ring laser gyroscope.
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Measurement of Dispersive Properties of Electromagnetically Induced Transparency in Rubidium Atoms
TL;DR: The dispersive properties of the atomic transition in the rubidium line are measured and this ladder-type system is observed to exhibit electromagnetically induced transparency together with a rapidly varying refractive index.
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Collapse and revival of the state vector in the Jaynes-Cummings model: An example of state preparation by a quantum apparatus.
TL;DR: The evolution of the atomic state in the resonant Jaynes-Cummings model (a two-level atom interacting with a single mode of the quantized radiation field) with the field initially in a coherent state is considered and it is shown that the atom is to a good approximation in a pure state in a middle of what has been traditionally called the "collapse region".
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Atom- and field-state evolution in the Jaynes-Cummings model for large initial fields.
TL;DR: The revivals of the population inversion are seen to be entirely due to the fact that the linear superposition of the two macroscopically distinct field states is coherent (i.e., a pure state), as opposed to an incoherent mixture.