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Published: 6 September 2023

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1

Center, Langley Research, ed. Mobility power flow analysis of coupled plate structure subjected to mechanical and acoustic excitation. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1992.

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2

Lee, Timothy J. Comparison of the quadratic configuration interaction and coupled cluster approaches to electron correlation including the effect of triple excitations. [Moffett Field, Calif: National Aeronautics and Space Administration, Ames Research Center, 1991.

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3

Lee, Timothy J. Comparison of the quadratic configuration interaction and coupled cluster approaches to electron correlation including the effect of triple excitations. [Moffett Field, Calif: National Aeronautics and Space Administration, Ames Research Center, 1991.

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4

Perel, Esther. L'intelligence érotique: Faire vivre le désir dans le couple. Paris: Robert Laffont, 2007.

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5

Discovering your couple sexual style: The key to sexual satisfaction. New York: Routledge, 2009.

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6

Plaisirs et défis du lien amoureux. Montréal: Vlb, 2000.

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7

Bernholdt, David Edward. Triple excitation effects in the fock-space coupled cluster method. 1993.

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8

Mobility power flow analysis of coupled plate structure subjected to mechanical and acoustic excitation. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1992.

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9

National Aeronautics and Space Administration (NASA) Staff. Mobility Power Flow Analysis of Coupled Plate Structure Subjected to Mechanical and Acoustic Excitation. Independently Published, 2018.

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10

Magers, David Huey. The N3H3 molecular system and a coupled-cluster effective Hamiltonian for electronic spectra. 1988.

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11

Mobility power flow analysis of coupled plate structure subjected to mechanical and acoustic excitation: Final report. [Boca Raton, Fla.?]: Florida Atlantic University, Dept. of Ocean Engineering, 1991.

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12

Lin, C. W., N. F. Chiu, and C. C. Chang. Modulation design of plasmonics for diagnostic and drug screening. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.18.

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This article discusses the modulation design of plasmonics for diagnosis and drug screening applications. It begins with an overview of the advances made in terms of theoretical insights, focusing on the origins of surface plasmon wave and manipulation, admittance loci design method, and surface plasmon grating coupled emission. It then considers how prism coupler, Ge-doped silica waveguide, nanograting and active plasmonics can trigger the excitation of surface plasmon resonance (SPR). It also examines the metallic effect of long-range surface plasmon resonance and conducting metal oxide as adhesive layer before describing three SPR waveguide biosensors that were developed for the realization of a hand-held SPR system. In particular, it presents a lateral-flow microfluidic channel based on a nitrocellulose membrane and integrated with a SPR waveguide biosensor to achieve dynamic detection. Finally, the article evaluates the biomolecular layer effect, with emphasis on kinetics analysis of antibody binding.
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13

National Aeronautics and Space Administration (NASA) Staff. Connected Triple Excitations in Coupled-Cluster Calculations of Hyperpolarizabilities: Neon. Independently Published, 2018.

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14

Kavokin, Alexey V., Jeremy J. Baumberg, Guillaume Malpuech, and Fabrice P. Laussy. Semiclassical description of light–matter coupling. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198782995.003.0004.

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In this chapter we consider light coupling to elementary semiconductor crystal excitations—excitons—and discuss the optical properties of mixed light–matter quasiparticles named exciton-polaritons, which play a decisive role in optical spectra of microcavities. Our considerations are based on the classical Maxwell equations coupled to the material relation accounting for the quantum properties of excitons.
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15

McCarthy, Barry, and Emily McCarthy. Enhancing Couple Sexuality. Taylor & Francis Group, 2019.

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16

McCarthy, Barry, and Emily McCarthy. Enhancing Couple Sexuality. Taylor & Francis Group, 2019.

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17

Thygesen, K. S., and A. Rubio. Correlated electron transport in molecular junctions. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.23.

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This article focuses on correlated electron transport in molecular junctions. More specifically, it considers how electronic correlation effects can be included in transport calculations using many-body perturbation theory within the Keldysh non-equilibrium Green’s function formalism. The article uses the GW self-energy method (G denotes the Green’s function and W is the screened interaction) which has been successfully applied to describe quasi-particle excitations in periodic solids. It begins by formulating the quantum-transport problem and introducing the non-equilibrium Green’s function formalism. It then derives an expression for the current within the NEGF formalism that holds for interactions in the central region. It also combines the GW scheme with a Wannier function basis set to study electron transport through two prototypical junctions: a benzene molecule coupled to featureless leads and a hydrogen molecule between two semi-infinite platinum chains. The results are analyzed using a generic two-level model of a molecular junction.
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18

Enhancing Couple Sexuality: Creating an Intimate and Erotic Bond. Taylor & Francis Group, 2019.

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19

Horing, Norman J. Morgenstern. Superfluidity and Superconductivity. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198791942.003.0013.

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Chapter 13 addresses Bose condensation in superfluids (and superconductors), which involves the field operator ψ‎ having a c-number component (<ψ(x,t)>≠0), challenging number conservation. The nonlinear Gross-Pitaevskii equation is derived for this condensate wave function<ψ>=ψ−ψ˜, facilitating identification of the coherence length and the core region of vortex motion. The noncondensate Green’s function G˜1(1,1′)=−i<(ψ˜(1)ψ˜+(1′))+> and the nonvanishing anomalous correlation function F˜∗(2,1′)=−i<(ψ˜+(2)ψ˜+(1′))+> describe the dynamics and elementary excitations of the non-condensate states and are discussed in conjunction with Landau’s criterion for viscosity. Associated concepts of off-diagonal long-range order and the interpretation of <ψ> as a superfluid order parameter are also introduced. Anderson’s Bose-condensed state, as a phase-coherent wave packet superposition of number states, resolves issues of number conservation. Superconductivity involves bound Cooper pairs of electrons capable of Bose condensation and superfluid behavior. Correspondingly, the two-particle Green’s function has a term involving a product of anomalous bound-Cooper-pair condensate wave functions of the type F(1,2)=−i<(ψ(1)ψ(2))+>≠0, such that G2(1,2;1′,2′)=F(1,2)F+(1′,2′)+G˜2(1,2;1′,2′). Here, G˜2 describes the dynamics/excitations of the non-superfluid-condensate states, while nonvanishing F,F+ represent a phase-coherent wave packet superposition of Cooper-pair number states and off-diagonal long range order. Employing this form of G2 in the G1-equation couples the condensed state with the non-condensate excitations. Taken jointly with the dynamical equation for F(1,2), this leads to the Gorkov equations, encompassing the Bardeen–Cooper–Schrieffer (BCS) energy gap, critical temperature, and Bogoliubov-de Gennes eigenfunction Bogoliubons. Superconductor thermodynamics and critical magnetic field are discussed. For a weak magnetic field, the Gorkov-equations lead to Ginzburg–Landau theory and a nonlinear Schrödinger-like equation for the pair wave function and the associated supercurrent, along with identification of the Cooper pair density. Furthermore, Chapter 13 addresses the apparent lack of gauge invariance of London theory with an elegant variational analysis involving re-gauging the potentials, yielding a manifestly gauge invariant generalization of the London equation. Consistency with the equation of continuity implies the existence of Anderson’s acoustic normal mode, which is supplanted by the plasmon for Coulomb interaction. Type II superconductors and the penetration (and interaction) of quantized magnetic flux lines are also discussed. Finally, Chapter 13 addresses Josephson tunneling between superconductors.
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20

Perel, Esther. L'intelligence érotique. POCKET, 2013.

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21

Finding Your Sexual Voice: Celebrating Female Sexuality. Taylor & Francis Group, 2018.

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