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Artículos de revistas sobre el tema "Squeezed phonons"

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Publicado: 11 de marzo de 2023

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1

PANG, XIAO-FENG. "CHANGES IN THE PHYSICAL PROPERTIES OF NONADIABATICALLY COUPLED ELECTRON–PHONON SYSTEMS ARISING FROM SQUEEZING–ANTISQUEEZING EFFECT". International Journal of Modern Physics B 17, n.º 31n32 (30 de diciembre de 2003): 6031–56. http://dx.doi.org/10.1142/s0217979203023471.

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Changes in the physical properties such as the ground state properties, charge density wave ordering, binding energy and energy bandwidth of polaron and quantum fluctuation, and minimum uncertainty relation of phonons and nonadiabatically coupled electron–phonon systems with spin-1/2 have been investigated by our new state ansatz which can account for correlation among the phononic displacement, squeezing and polaron effects using variational method in one-dimensional Holstein model. The investigation here shows that the squeezing–antisqueezing effect (correlated) results in a decrease of the ground state energy, an increase of the binding energy of polarons, the reduction of the uncertainty and quantum fluctuation of the phonons, a decrease of polaron narrowing of electron bandwidth, an increase of tunneling effect of the polarons and an increase of CDW ordering and phonon staggered ordering when compared with the uncorrelated case. Therefore, this shows that the ground state determined by the new state ansatz is the most stable. The new ansatz which include the squeezing–antisqueezing (correlated) effect is very relevant for the coupled electron–phonon systems, especially in strongly coupled and highly squeezed cases.
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2

Čevizović, D., A. V. Chizhov y S. Galović. "Vibron transport in macromolecular chains with squeezed phonons". Nanosystems: Physics, Chemistry, Mathematics 9, n.º 5 (31 de octubre de 2018): 597–602. http://dx.doi.org/10.17586/2220-8054-2018-9-5-597-602.

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3

Müstecaplıoǧlu, Ö. E. y A. S. Shumovsky. "Detecting squeezed phonons through an indirect radiative transition". Applied Physics Letters 70, n.º 26 (30 de junio de 1997): 3489–91. http://dx.doi.org/10.1063/1.119209.

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4

Ivanov, V. A., M. Ye Zhuravlev, Y. Murayama y S. Nakajima. "Integrable chain of electrons coupled with squeezed phonons". Journal of Experimental and Theoretical Physics Letters 64, n.º 3 (agosto de 1996): 148–54. http://dx.doi.org/10.1134/1.567166.

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5

Misochko, O. V. "Nonclassical states of lattice excitations: squeezed and entangled phonons". Physics-Uspekhi 56, n.º 9 (30 de septiembre de 2013): 868–82. http://dx.doi.org/10.3367/ufne.0183.201309b.0917.

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6

Zhang, X. Y., Y. H. Zhou, Y. Q. Guo y X. X. Yi. "Anti-correlated phonons with two-mode Gaussian squeezed state". Physica Scripta 95, n.º 2 (3 de enero de 2020): 025102. http://dx.doi.org/10.1088/1402-4896/ab42aa.

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7

Misochko, Oleg V. "Nonclassical states of lattice excitations: squeezed and entangled phonons". Uspekhi Fizicheskih Nauk 183, n.º 9 (2013): 917–33. http://dx.doi.org/10.3367/ufnr.0183.201309b.0917.

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8

Nugraha, A. R. T. y E. H. Hasdeo. "Coherent and squeezed phonons in single wall carbon nanotubes". Journal of Physics: Conference Series 1191 (marzo de 2019): 012002. http://dx.doi.org/10.1088/1742-6596/1191/1/012002.

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9

Peřina, J., M. Kárská y J. Křepelka. "Stimulated Raman Scattering of Nonclassical Light by Squeezed Phonons". Acta Physica Polonica A 79, n.º 6 (junio de 1991): 817–28. http://dx.doi.org/10.12693/aphyspola.79.817.

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10

Trigo, Mariano y David Reis. "Time-Resolved X-Ray Scattering from Coherent Excitations in Solids". MRS Bulletin 35, n.º 7 (julio de 2010): 514–19. http://dx.doi.org/10.1557/mrs2010.600.

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AbstractRecent advances in pulsed x-ray sources have opened up new opportunities to study the dynamics of matter directly in the time domain with picosecond to femtosecond resolution. In this article, we present recent results from a variety of ultrafast sources on time-resolved x-ray scattering from elementary excitations in periodic solids. A few representative examples are given on folded acoustic phonons, coherent optical phonons, squeezed phonons, and polaritons excited by femtosecond lasers. Next-generation light sources, such as the x-ray-free electron laser, will lead to improvements in coherence, flux, and pulse duration. These experiments demonstrate potential opportunities for studying matter far from equilibrium on the fastest time scales and shortest distances that will be available in the coming years.
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11

Zoubi, Hashem. "Squeezed states of coupled photons and phonons in nanoscale waveguides". Journal of Optics 21, n.º 6 (22 de mayo de 2019): 065202. http://dx.doi.org/10.1088/2040-8986/ab1e6c.

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12

Chai, Jin-Hua y Guang-Can Guo. "Preparation of squeezed-state phonons using the Raman-induced Kerr effect". Quantum and Semiclassical Optics: Journal of the European Optical Society Part B 9, n.º 6 (diciembre de 1997): 921–27. http://dx.doi.org/10.1088/1355-5111/9/6/005.

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13

FEINBERG, D., S. CIUCHI y F. de PASQUALE. "SQUEEZING PHENOMENA IN INTERACTING ELECTRON-PHONON SYSTEMS". International Journal of Modern Physics B 04, n.º 07n08 (junio de 1990): 1317–67. http://dx.doi.org/10.1142/s0217979290000656.

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The molecular crystal model of electrons coupled to Einstein phonons is studied as a function of the two parameters: the coupling constant A and the ratio of the electron-phonon coupling energy to the phonon energy, denoted by α. Both the one-electron and the many-electron models are studied, starting (for the former) from the adiabatic limit and (for the latter) from the anti-adiabatic one. In the “multiphonon” regime α>1, the sharp crossover between quasi-free electrons (λ≪1) and small polarons (λ≫1) is investigated, emphasizing the anomalous lattice fluctuations which occur in the intermediate regime (λ≈1). These fluctuations are due to the band motion of the electrons strongly coupled to the lattice and are shown in turn to weaken the electron mass renormalization inherent to self-trapping. In a relevant part of the intermediate region the effective electron mass slowly increases with λ, due to a competition between the phonon dressing effect and the reduction of lattice momentum fluctuations. This reduction is reminiscent of squeezing phenomena occurring in quantum optics. In a gaussian approximation squeezed phonon states imply a dynamical phonon softening.
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14

Benatti, Fabio, Martina Esposito, Daniele Fausti, Roberto Floreanini, Kelvin Titimbo y Klaus Zimmermann. "Generation and detection of squeezed phonons in lattice dynamics by ultrafast optical excitations". New Journal of Physics 19, n.º 2 (17 de febrero de 2017): 023032. http://dx.doi.org/10.1088/1367-2630/aa50bc.

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15

Jin-Hua Chai y Guang-Can Guo. "Evolution of phonon noise and quantum nondemolition measurements in the model for detection of hypersonic phonons by squeezed light". Physica B: Condensed Matter 240, n.º 3 (septiembre de 1997): 220–25. http://dx.doi.org/10.1016/s0921-4526(97)00421-3.

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16

GAO YANG y ZHANG YU-MEI. "VARIATIONAL STUDY ON CORRELATED-SQUEEZED GROUND STATE OF QUANTUM TUNNELING SYSTEM INTERACTING WITH TWO PHONONS". Acta Physica Sinica 48, n.º 7 (1999): 1340. http://dx.doi.org/10.7498/aps.48.1340.

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17

Chai, Jin-Hua y Yi-Qun Lu. "Effects of phase mismatch and losses on phonon squeezing and quantum nondemolition measurements in detection of hypersonic phonons by squeezed light". Physica B: Condensed Matter 291, n.º 3-4 (septiembre de 2000): 292–98. http://dx.doi.org/10.1016/s0921-4526(99)02280-2.

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18

Mahboob, Imran, Hajime Okamoto y Hiroshi Yamaguchi. "An electromechanical Ising Hamiltonian". Science Advances 2, n.º 6 (junio de 2016): e1600236. http://dx.doi.org/10.1126/sciadv.1600236.

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Solving intractable mathematical problems in simulators composed of atoms, ions, photons, or electrons has recently emerged as a subject of intense interest. We extend this concept to phonons that are localized in spectrally pure resonances in an electromechanical system that enables their interactions to be exquisitely fashioned via electrical means. We harness this platform to emulate the Ising Hamiltonian whose spin 1/2 particles are replicated by the phase bistable vibrations from the parametric resonances of multiple modes. The coupling between the mechanical spins is created by generating two-mode squeezed states, which impart correlations between modes that can imitate a random, ferromagnetic state or an antiferromagnetic state on demand. These results suggest that an electromechanical simulator could be built for the Ising Hamiltonian in a nontrivial configuration, namely, for a large number of spins with multiple degrees of coupling.
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19

Kristoffersen, A., C. F. Lo y R. Sollie. "Correlated squeezed-state approach for the ground state of strongly correlated electrons coupled to local Holstein phonons". Il Nuovo Cimento D 18, n.º 8 (agosto de 1996): 931–46. http://dx.doi.org/10.1007/bf02459075.

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20

Su, Xiyu y Hang Zheng. "Properties of the Squeezed Polarons in One Dimension". International Journal of Modern Physics B 12, n.º 22 (10 de septiembre de 1998): 2225–32. http://dx.doi.org/10.1142/s0217979298001290.

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An electron related squeezed phonon transformation is employed to investigate the ground state properties of the strongly coupled electron–phonon system in one dimension. It has been shown that the binding energy of the polaron and the interaction between the polarons are renormalized together with the energy reducement of the electron subsystem resulted from the squeeze state of the phonon subsystem. Some relevance with the earlier variational treatments has been discussed as well.
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21

Lo, C. F. y R. Sollie. "Correlated squeezed phonon states". Physics Letters A 169, n.º 1-2 (septiembre de 1992): 91–98. http://dx.doi.org/10.1016/0375-9601(92)90812-z.

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22

CHATTERJEE, JAYITA y A. N. DAS. "FIRST EXCITED STATE CALCULATION USING DIFFERENT PHONON BASES FOR THE TWO-SITE HOLSTEIN MODEL". International Journal of Modern Physics B 14, n.º 24 (30 de septiembre de 2000): 2577–86. http://dx.doi.org/10.1142/s0217979200002247.

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The single-electron energy and static charge-lattice deformation correlations have been calculated for the first excited state of a two-site Holstein model within perturbative expansions using different standard phonon bases obtained through Lang–Firsov (LF) transformation, LF with squeezed phonon states, modified LF, modified LF transformation with squeezed phonon states, and also within weak-coupling perturbation approach. Comparisons of the convergence of the perturbative expansions for different phonon bases reveal that modified LF approach works much better than other approaches for major range of the coupling strength.
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23

Sainz De Los Terreros, L., P. García-Fernández y F. J. Bermejo. "Squeezed states in two-phonon devices". Physics Letters A 130, n.º 2 (junio de 1988): 87–93. http://dx.doi.org/10.1016/0375-9601(88)90244-7.

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24

Bloch, Anthony M. y Alberto G. Rojo. "Control of Squeezed Phonon and Spin States". European Journal of Control 10, n.º 5 (enero de 2004): 469–77. http://dx.doi.org/10.3166/ejc.10.469-477.

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25

Bloch, Anthony M. y Alberto G. Rojo. "Control of Squeezed Phonon and Spin States". IFAC Proceedings Volumes 36, n.º 2 (abril de 2003): 27–34. http://dx.doi.org/10.1016/s1474-6670(17)38863-8.

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26

Sota, Takayuki y Katsuo Suzuki. "Phonon squeezed state in high-Tc superconductors". Physica B: Condensed Matter 165-166 (agosto de 1990): 1083–84. http://dx.doi.org/10.1016/s0921-4526(09)80127-0.

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27

Sonnek, Mathias, Hubert Eiermann y Max Wagner. "Squeezed excited states in exciton-phonon systems". Physical Review B 51, n.º 2 (1 de enero de 1995): 905–15. http://dx.doi.org/10.1103/physrevb.51.905.

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28

Hu, Xuedong y Franco Nori. "Quantum phonon optics: Coherent and squeezed atomic displacements". Physical Review B 53, n.º 5 (1 de febrero de 1996): 2419–24. http://dx.doi.org/10.1103/physrevb.53.2419.

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29

Sonnek, Mathias y Max Wagner. "Squeezed oscillatory states in extended exciton-phonon systems". Physical Review B 53, n.º 6 (1 de febrero de 1996): 3190–202. http://dx.doi.org/10.1103/physrevb.53.3190.

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30

Hu, Xuedong y Franco Nori. "Phonon squeezed states: quantum noise reduction in solids". Physica B: Condensed Matter 263-264 (marzo de 1999): 16–29. http://dx.doi.org/10.1016/s0921-4526(98)01483-5.

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31

Shi, Yun-long, Hong Chen y Xiang Wu. "Displaced-Squeezed States in a Spin-Phonon Model". Communications in Theoretical Physics 14, n.º 2 (septiembre de 1990): 167–72. http://dx.doi.org/10.1088/0253-6102/14/2/167.

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32

LUO, FANG-FANG, WEN-XING YANG, JIAO-MEI LI, HUA-LING SHU, HUA GUAN y KE-LIN GAO. "MULTI-COMPONENT SQUEEZED COHERENT STATE FOR N TRAPPED IONS IN ANY POSITION OF A STANDING WAVE". Modern Physics Letters B 19, n.º 15 (30 de junio de 2005): 729–35. http://dx.doi.org/10.1142/s0217984905008724.

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We proposed a scheme to generate a multi-component squeezed coherent states with arbitrary coefficients on a line in phase space for multiple trapped ions radiated by a single standing-wave laser whose carrier frequency is tuned to the ions transition. In the scheme each ion does not need to be exactly positioned at the node of the standing wave. Furthermore, our scheme may allow the generation of a multi-component squeezed coherent states with large mean phonon number in a fast way by choosing a suitable laser intensity, which is important in view of de-coherence processes.
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33

Baskoutas, S. y P. Papanikolaou. "Correlated Squeezed State Approach for Complex Phonon Coupling in a Tunnelling System". Modern Physics Letters B 11, n.º 11 (10 de mayo de 1997): 485–92. http://dx.doi.org/10.1142/s0217984997000591.

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In the present paper we propose a method of studying a two-state system coupled linearly to a boson field with complex coupling in a correlated squeezed state approach. The complex coupling leads to the initiation of complex probability density with complex statistical averages. Exploiting the biorthonormal formalism we obtain the analytical forms of the complex expectation value E of H as well as the complex tunneling reduction factor. As it is seen from our results the localization–delocalization transition of the tunneling particle is modified for small values of the real part of the coupling constant in comparison with the conventional (g real) correlated squeezed state approach.
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34

Hu, Xuedong y Franco Nori. "Squeezed Phonon States: Modulating Quantum Fluctuations of Atomic Displacements". Physical Review Letters 76, n.º 13 (25 de marzo de 1996): 2294–97. http://dx.doi.org/10.1103/physrevlett.76.2294.

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35

Hu, Xuedong y Franco Nori. "Phonon Squeezed States Generated by Second-Order Raman Scattering". Physical Review Letters 79, n.º 23 (8 de diciembre de 1997): 4605–8. http://dx.doi.org/10.1103/physrevlett.79.4605.

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36

Levi, Barbara Goss. "Can Phonons Squeeze their Way Into the Company of Photons?" Physics Today 50, n.º 6 (junio de 1997): 18–19. http://dx.doi.org/10.1063/1.881762.

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37

Lo, C. F. y R. Sollie. "Correlated-squeezed-state approach for phonon coupling in a tunneling system". Physical Review B 44, n.º 10 (1 de septiembre de 1991): 5013–15. http://dx.doi.org/10.1103/physrevb.44.5013.

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38

Hu, Jianbo, Oleg V. Misochko y Kazutaka G. Nakamura. "Manipulation of Squeezed Two-Phonon Bound States using Femtosecond Laser Pulses". EPJ Web of Conferences 41 (2013): 04019. http://dx.doi.org/10.1051/epjconf/20134104019.

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39

Mikhail, I. F. I., I. M. M. Ismail y M. Ameen. "Effect of magnon-phonon interactions on magnon squeezed states in ferromagnets". Physica B: Condensed Matter 530 (febrero de 2018): 106–13. http://dx.doi.org/10.1016/j.physb.2017.10.102.

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40

Baskoutas, S., A. Jannussis y P. Yianoulis. "Displaced squeezed number states of the phonon field in polar semiconductors". Physical Review B 54, n.º 12 (15 de septiembre de 1996): 8586–92. http://dx.doi.org/10.1103/physrevb.54.8586.

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41

RIDLEY, B. K. y N. A. ZAKHLENIUK. "TRANSPORT IN A POLARIZATION-INDUCED 2D ELECTRON GAS". International Journal of High Speed Electronics and Systems 11, n.º 02 (junio de 2001): 479–509. http://dx.doi.org/10.1142/s0129156401000927.

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AlGaN/GaN structures constitute a new class of 2D systems in that a large population of electrons can be produced without doping as a result of spontaneous and strain-induced polarization. Electron transport can, in principle, be mediated solely by phonon scattering and, for the first time, it is possible to realistically envisage the formation of a drifted Maxwellian or Fermi-Dirac distribution in hot-electron transport. We first describe a simple model that relates electron density in a heterostructure to barrier width and then explore electron-electron (e-e) energy and momentum exchange in some depth. We then illustrate the novel hot-electron transport properties that can arise when only phonon and e-e scattering are present. These include S-type NDR, electron cooling and squeezed electrons.
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42

Le Coq, Yann, Klaus Mølmer y Signe Seidelin. "Position- and momentum-squeezed quantum states in micro-scale mechanical resonators". Modern Physics Letters B 34, n.º 17 (18 de marzo de 2020): 2050193. http://dx.doi.org/10.1142/s0217984920501936.

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A challenge of modern physics is to investigate the quantum behavior of a bulk material object, for instance a mechanical oscillator. We have earlier demonstrated that by coupling a mechanical oscillator to the energy levels of embedded rare-earth ion dopants, it is possible to prepare such a resonator in a low phonon number state. Here, we describe how to extend this protocol in order to prepare momentum- and position-squeezed states, and we analyze how the obtainable degree of squeezing depends on the initial conditions and on the coupling of the oscillator to its thermal environment.
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43

Chen, Hong, Yu-Mei Zhang y Xiang Wu. "Squeezed-state approach for phonon coupling in tunneling systems at zero temperature". Physical Review B 39, n.º 1 (1 de enero de 1989): 546–50. http://dx.doi.org/10.1103/physrevb.39.546.

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44

Garrett, G. A., J. F. Whitaker, A. K. Sood y R. Merlin. "Ultrafast optical excitation of a combined coherent-squeezed phonon field in SrTiO_3". Optics Express 1, n.º 12 (8 de diciembre de 1997): 385. http://dx.doi.org/10.1364/oe.1.000385.

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45

Reiter, D. E., S. Sauer, J. Huneke, T. Papenkort, T. Kuhn, A. Vagov y V. M. Axt. "Generation of squeezed phonon states by optical excitation of a quantum dot". Journal of Physics: Conference Series 193 (1 de noviembre de 2009): 012121. http://dx.doi.org/10.1088/1742-6596/193/1/012121.

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46

Wigger, Daniel, Sebastian Lüker, Vollrath Axt, Doris Reiter y Tilmann Kuhn. "Squeezed Phonon Wave Packet Generation by Optical Manipulation of a Quantum Dot". Photonics 2, n.º 1 (12 de febrero de 2015): 214–27. http://dx.doi.org/10.3390/photonics2010214.

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47

Croquette, M., S. Deléglise, T. Kawasaki, K. Komori, M. Kuribayashi, A. Lartaux-Vollard, N. Matsumoto et al. "Recent advances toward mesoscopic quantum optomechanics". AVS Quantum Science 5, n.º 1 (marzo de 2023): 014403. http://dx.doi.org/10.1116/5.0128487.

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We present a number of approaches, currently in experimental development in our research groups, toward the general problem of macroscopic quantum mechanics, i.e., manifestations of quantum noise and quantum fluctations with macroscopic (engineered and microfabricated by man) mechanical systems. Discussed experiments include a pendulum, a torsion pendulum, a ng-scale phononic-crystal silicon nitride membrane, a [Formula: see text] g-scale quartz resonator, and mg-scale mirrors for optical levitation. We also discuss relevant applications to quantum thermometry with optomechanical systems and the use of squeezed light to probe displacements beyond conventional quantum limits.
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48

Lo, C. F., E. Manousakis, R. Sollie y Y. L. Wang. "Correlated squeezed-state approach for the ground state of a system with strong electron-phonon interaction". Physical Review B 50, n.º 1 (1 de julio de 1994): 418–25. http://dx.doi.org/10.1103/physrevb.50.418.

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49

Eirmann, H., M. Sonneck y M. Wagner. "On a class of squeezed excited states in exciton-phonon and Jahn-Teller systems (“exotic states”)". Journal of Luminescence 58, n.º 1-6 (enero de 1994): 47–50. http://dx.doi.org/10.1016/0022-2313(94)90359-x.

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50

Sonnek, M., H. Eiermann y M. Wagner. "ON A CLASS OF SQUEEZED EXCITED STATES IN EXCITON–PHONON AND JAHN–TELLER SYSTEMS (’EXOTIC STATES’)". Proceedings of the Estonian Academy of Sciences. Physics. Mathematics 44, n.º 2/3 (1995): 382. http://dx.doi.org/10.3176/phys.math.1995.2/3.27.

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