Effects of non-idealities and quantization of the center of mass motion on symmetric and asymmetric collective states in a collective state atomic interferometer

Sarkar, Resham; Kim, May E.; Fang, Renpeng; Tu, Yanfei; Shahriar, Selim M.

doi:10.1080/09500340.2015.1033026

Cited by 7 publications

(7 citation statements)

References 30 publications

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“…Thus, when transformed to the collective state basis, there are also 2 N collective states. For identical Rabi frequencies and resonant frequencies, however, only the generalized symmetric states [17], of which there are only (N + 1), are relevant, and the rest of the (2 N − N − 1) states become decoupled. The case where inhomogeneity of the Rabi frequencies and different Doppler shifts experienced by different atoms are taken into account is presented at the end of this section.…”

Section: Mentmentioning

confidence: 99%

“…The case where inhomogeneity of the Rabi frequencies and different Doppler shifts experienced by different atoms are taken into account is presented at the end of this section. We also note that if different atoms see different phase factors from the excitation fields, these factors can be absorbed into the definition of the generalized symmetric states [17]. The simplified symmetric states, known as the conventional Dicke states [16], represent the case where it is assumed that the mean separation between the atoms is much less than the wavelength corresponding to the two level transition (which, for the co-propagating off resonant Raman excitation, is ∼ (k 1 − k 2 ) −1 ).…”

Section: Mentmentioning

confidence: 99%

“…The simplified symmetric states, known as the conventional Dicke states [16], represent the case where it is assumed that the mean separation between the atoms is much less than the wavelength corresponding to the two level transition (which, for the co-propagating off resonant Raman excitation, is ∼ (k 1 − k 2 ) −1 ). While this constraint is not necessary for the concept proposed here [17], it is easier to describe the process initially under this constraint. The observables computed remain correct when this constraint is not met.…”

Section: Mentmentioning

confidence: 99%

“…is the Rabi frequency between collective states [16,17]. The states are separated by δ in energy and couple at different rates.…”

Section: Mentmentioning

confidence: 99%

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N−atomcollective-state atomic clock withN−foldincrease in effective frequency andN−<

et al. 2015

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We describe a collective state atomic clock (COSAC) with Ramsey fringes narrowed by a factor of √ N compared to a conventional clock -N being the number of non-interacting atoms -without violating the uncertainty relation. This narrowing is explained as being due to interferences among the collective states, representing an effective √ N fold increase in the clock frequency, without entanglement. We discuss the experimental inhomogeneities that affect the signal and show that experimental parameters can be adjusted to produce a near ideal signal. The detection process collects fluorescence through stimulated Raman scattering of Stokes photons, which emits photons predominantly in the direction of the probe beam for a high enough optical density. By using a null measurement scheme, in which detection of zero photons corresponds to the system being in a single collective state, we detect the population in a collective state of interest. The quantum and classical noise of the ideal COSAC is still limited by the standard quantum limit and performs only as well as the conventional clock. However, when detection efficiency and collection efficiency are taken into account, the detection scheme of the COSAC increases the quantum efficiency of detection significantly in comparison to a typical conventional clock employing fluorescence detection, yielding a net improvement in stability by as much as a factor of 10.

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Section: Mentmentioning

confidence: 99%

Section: Mentmentioning

confidence: 99%

Section: Mentmentioning

confidence: 99%

“…is the Rabi frequency between collective states [16,17]. The states are separated by δ in energy and couple at different rates.…”

Section: Mentmentioning

confidence: 99%

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N−atomcollective-state atomic clock withN−foldincrease in effective frequency andN−<

et al. 2015

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“…[26][27][28][29] Coupled with these favorable Fig. [26][27][28][29] Coupled with these favorable Fig.…”

Section: Results For Coupling Scheme Without Misalignment Considerationmentioning

confidence: 99%

Investigation of coupling of a laser diode to photonic crystal fiber via hyperbolic microlens on the fiber tip by ABCD matrix formalism

et al. 2015

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A simple and accurate theoretical investigation is presented, based on a novel, effective, and straightforward ABCD matrix technique, in relation to estimation of optimum coupling efficiency between the laser diode and the photonic crystal fiber (PCF) with a hyperbolic microlens (HML) on its tip. By tailoring different parameters, such as the air-filling factor and lattice constant of the PCF, the criteria for achieving maximum coupling are predicted and reported for two different light wavelengths of practical interest. It is observed that such fiber parameters play a crucial role in predicting the optimum focal length of HML for a particular wavelength. The formulation should find application in the design of HML, for achieving a long working distance between the laser source facet and the fiber tip. Downloaded From: http://opticalengineering.spiedigitallibrary.org/ on 08/19/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx Somenath Sarkar is currently a professor of the Department of Electronic Science, CU, where he has rendered services since September 1989. He received his MSc degree (physics) from Delhi University and his PhD (physics) from IIT, Delhi, in fiber optics. He carried out investigations successfully through two R&D projects of CSIR and AICTE and one DST-FIST and AICTE MODROB project with colleagues to upgrade teaching and laboratories. He is an associate editor of Advances in Optoelectronics. Optical Engineering 086102-7 August 2015 • Vol. 54(8) Karak et al.: Investigation of coupling of a laser diode to photonic crystal fiber via hyperbolic microlens. . . Downloaded From: http://opticalengineering.spiedigitallibrary.org/ on 08/19/2015 Terms of Use: http://spiedigitallibrary.org/ss/TermsOfUse.aspx

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Generalized echo squeezing protocol with near-Heisenberg-limit sensitivity and strong robustness against detection noise and variation in squeezing parameter

Silva

Kain

et al. 2023

Phys. Rev. A

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Effects of non-idealities and quantization of the center of mass motion on symmetric and asymmetric collective states in a collective state atomic interferometer

Cited by 7 publications

References 30 publications

N−atomcollective-state atomic clock withN−foldincrease in effective frequency andN−<

N−atomcollective-state atomic clock withN−foldincrease in effective frequency andN−<

Investigation of coupling of a laser diode to photonic crystal fiber via hyperbolic microlens on the fiber tip by ABCD matrix formalism

Generalized echo squeezing protocol with near-Heisenberg-limit sensitivity and strong robustness against detection noise and variation in squeezing parameter

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