標(biāo)題: Titlebook: Exploring Macroscopic Quantum Mechanics in Optomechanical Devices; Haixing Miao Book 2012 Springer-Verlag Berlin Heidelberg 2012 Award win [打印本頁(yè)] 作者: crusade 時(shí)間: 2025-3-21 19:08
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices影響因子(影響力)
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices影響因子(影響力)學(xué)科排名
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices網(wǎng)絡(luò)公開(kāi)度
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices網(wǎng)絡(luò)公開(kāi)度學(xué)科排名
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices被引頻次
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices被引頻次學(xué)科排名
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices年度引用
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices年度引用學(xué)科排名
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices讀者反饋
書目名稱Exploring Macroscopic Quantum Mechanics in Optomechanical Devices讀者反饋學(xué)科排名
作者: 加花粗鄙人 時(shí)間: 2025-3-21 22:35 作者: 密切關(guān)系 時(shí)間: 2025-3-22 00:37
Dagmar Schlenzig,Stephan Schillingforce, by measuring the displacement of a micro-mechanical cantilever; on the large scale, gravitational-wave (GW) detectors search for ripples in spacetime, by measuring the differential displacements of spatially-separated test masses induced by tiny gravitational tidal forces.作者: expound 時(shí)間: 2025-3-22 06:45 作者: exercise 時(shí)間: 2025-3-22 11:54
https://doi.org/10.1007/978-3-7643-8585-9uble optical springs. We explore the frequency dependence of the optical spring effect. In particular, we show that the frequency dependence of double optical springs allows us to create a “negative inertia”, which cancels the positive inertia of the test-mass with the mechanical response significan作者: 頑固 時(shí)間: 2025-3-22 13:32 作者: 頑固 時(shí)間: 2025-3-22 18:27
G. R. Belitskii,Yurii I. Lyubichcavity modes are coupled to one mechanical mode through radiation pressure. This work is motivated by the investigations of three-mode parametric instability in large-scale gravitational-wave (GW) detectors with high-power optical cavities, as first pointed out by Braginsky et?al. We realized that t作者: myriad 時(shí)間: 2025-3-23 01:03 作者: heirloom 時(shí)間: 2025-3-23 03:58
Applications to Robust Control,which have finite degrees of freedom. In this chapter, we study the entanglement between a mechanical oscillator and a coherent continuous optical field which contains infinite degrees of freedom. This system is interesting because it lies in the heart of all optomechanical systems. With a rigorous 作者: 幼稚 時(shí)間: 2025-3-23 06:58
Differential and Difference Equations,otivated by the pioneering theoretical work of Santamore (Phys Rev B 70:144301, 2004) Martin and Zureck (Phys Rev Lett 98:120401, 2007), and by recent experimental work of Thompson et?al. (Nature 452:72–75, 2008), we consider the quantum limit for probing mechanical energy quantization with mechanic作者: convulsion 時(shí)間: 2025-3-23 12:34 作者: 肉身 時(shí)間: 2025-3-23 17:51 作者: GLARE 時(shí)間: 2025-3-23 21:46 作者: 和平 時(shí)間: 2025-3-23 22:14
Exploring Macroscopic Quantum Mechanics in Optomechanical Devices978-3-642-25640-0Series ISSN 2190-5053 Series E-ISSN 2190-5061 作者: Defraud 時(shí)間: 2025-3-24 04:54 作者: Opponent 時(shí)間: 2025-3-24 10:12
Dijana Mosi?,Predrag S. Stanimirovi?To conclude, this thesis has covered two main topics concerning Macroscopic Quantum Mechanics (MQM) in optomechanical devices. The first topic considers different approaches to surpassing the Standard Quantum Limit (SQL) for measuring weak forces, which include modifying the input/output optics, and the dynamics of the mechanical oscillator.作者: Flatus 時(shí)間: 2025-3-24 10:56 作者: 聯(lián)邦 時(shí)間: 2025-3-24 15:07
Conclusions and Future Work,To conclude, this thesis has covered two main topics concerning Macroscopic Quantum Mechanics (MQM) in optomechanical devices. The first topic considers different approaches to surpassing the Standard Quantum Limit (SQL) for measuring weak forces, which include modifying the input/output optics, and the dynamics of the mechanical oscillator.作者: 小樣他閑聊 時(shí)間: 2025-3-24 22:20 作者: 消極詞匯 時(shí)間: 2025-3-24 23:24 作者: 貪婪的人 時(shí)間: 2025-3-25 06:35
Satya P. Gupta,Vaishali M. Patilok in progress—.—edited by David Blair. This chapter is written by Yanbei Chen, and myself. It gives a detailed introduction on how to analyze the quantum noise in advanced GW detectors by using input–output formalism, which is also valid for general optomechanical devices.作者: giggle 時(shí)間: 2025-3-25 08:40
https://doi.org/10.1007/978-3-7643-8585-9uble optical springs. We explore the frequency dependence of the optical spring effect. In particular, we show that the frequency dependence of double optical springs allows us to create a “negative inertia”, which cancels the positive inertia of the test-mass with the mechanical response significantly enhanced.作者: 淡紫色花 時(shí)間: 2025-3-25 13:30
https://doi.org/10.1007/BFb0072264ndent variational readout, we can measure the mechanical quadrature—a conserved quantity of the oscillator motion—and evade measurement-induced back-action. This is motivated by the pioneering work of Vyatchanin et?al. [., .], in which such a back-action-evading variational scheme is proposed to detect a force signal with known arrival time.作者: CHAR 時(shí)間: 2025-3-25 16:37 作者: handle 時(shí)間: 2025-3-25 23:12 作者: 造反,叛亂 時(shí)間: 2025-3-26 01:41
Introduction,force, by measuring the displacement of a micro-mechanical cantilever; on the large scale, gravitational-wave (GW) detectors search for ripples in spacetime, by measuring the differential displacements of spatially-separated test masses induced by tiny gravitational tidal forces.作者: LIKEN 時(shí)間: 2025-3-26 05:12 作者: BRAVE 時(shí)間: 2025-3-26 09:46
Modifying Test-Mass Dynamics: Double Optical Spring,uble optical springs. We explore the frequency dependence of the optical spring effect. In particular, we show that the frequency dependence of double optical springs allows us to create a “negative inertia”, which cancels the positive inertia of the test-mass with the mechanical response significantly enhanced.作者: Cultivate 時(shí)間: 2025-3-26 13:20
Measuring a Conserved Quantity: Variational Quadrature Readout,ndent variational readout, we can measure the mechanical quadrature—a conserved quantity of the oscillator motion—and evade measurement-induced back-action. This is motivated by the pioneering work of Vyatchanin et?al. [., .], in which such a back-action-evading variational scheme is proposed to detect a force signal with known arrival time.作者: MORT 時(shí)間: 2025-3-26 19:20
Achieving the Ground State and Enhancing Optomechanical Entanglement,tomechanical devices, the cavity bandwidth needs to be smaller than the mechanical frequency. This is the so-called resolved-sideband or good-cavity limit. In this chapter, we provide a new but physically equivalent insight into the origin of such a limit: that is information loss due to a finite cavity bandwidth.作者: 遺忘 時(shí)間: 2025-3-26 23:46
State Preparation: Non-Gaussian Quantum State,his is rather challenging to achieve, especially when the mass of the mechanical oscillator is large and the frequency is low. In this chapter, we propose a protocol for coherently transferring non-Gaussian quantum states from the optical field to a mechanical oscillator, which does not require a nonlinear coupling in the optomechanical system.作者: 慌張 時(shí)間: 2025-3-27 02:41 作者: HEPA-filter 時(shí)間: 2025-3-27 07:19 作者: FECK 時(shí)間: 2025-3-27 10:09 作者: Occlusion 時(shí)間: 2025-3-27 15:14 作者: 聯(lián)合 時(shí)間: 2025-3-27 18:03 作者: cathartic 時(shí)間: 2025-3-28 00:00
Nonlinear Optomechanical System for Probing Mechanical Energy Quantization, experimental work of Thompson et?al. (Nature 452:72–75, 2008), we consider the quantum limit for probing mechanical energy quantization with mechanical modes parametrically coupled to external degrees of freedom.作者: Modicum 時(shí)間: 2025-3-28 02:18
Probing Macroscopic Quantum States,te can be characterized below the Heisenberg limit, thereby achieving a quantum tomography. In the limiting case of no readout loss, such a scheme evades measurement-induced back-action, which is identical to the variational-type measurement scheme invented by Vyatchanin et?al., but in the context for detecting gravitational waves (GWs).作者: 陰險(xiǎn) 時(shí)間: 2025-3-28 09:56
Book 2012ted measurements with optomechanical devices. Such research is the main subject of this thesis. In the first part, the author considers various approaches for surpassing the standard quantum limit for force measurements. In the second part, the author proposes different experimental protocols for us作者: condescend 時(shí)間: 2025-3-28 11:18
Book 2012laser interferometer gravitational-wave detectors and related experiments, the general approaches apply equally well for studying small-scale optomechanical devices..The author is the winner of the 2010 Thesis prize awarded by the Gravitational Wave International Committee..作者: 苦澀 時(shí)間: 2025-3-28 18:36
Introduction,force, by measuring the displacement of a micro-mechanical cantilever; on the large scale, gravitational-wave (GW) detectors search for ripples in spacetime, by measuring the differential displacements of spatially-separated test masses induced by tiny gravitational tidal forces.作者: 有幫助 時(shí)間: 2025-3-28 21:38 作者: Ancillary 時(shí)間: 2025-3-29 02:56
Modifying Test-Mass Dynamics: Double Optical Spring,uble optical springs. We explore the frequency dependence of the optical spring effect. In particular, we show that the frequency dependence of double optical springs allows us to create a “negative inertia”, which cancels the positive inertia of the test-mass with the mechanical response significan作者: Commonplace 時(shí)間: 2025-3-29 04:57 作者: 新陳代謝 時(shí)間: 2025-3-29 08:37
MQM With Three-Mode Optomechanical Interactions,cavity modes are coupled to one mechanical mode through radiation pressure. This work is motivated by the investigations of three-mode parametric instability in large-scale gravitational-wave (GW) detectors with high-power optical cavities, as first pointed out by Braginsky et?al. We realized that t作者: 有權(quán)威 時(shí)間: 2025-3-29 15:29
Achieving the Ground State and Enhancing Optomechanical Entanglement,tomechanical devices, the cavity bandwidth needs to be smaller than the mechanical frequency. This is the so-called resolved-sideband or good-cavity limit. In this chapter, we provide a new but physically equivalent insight into the origin of such a limit: that is information loss due to a finite ca作者: 有花 時(shí)間: 2025-3-29 18:29
Universal Entanglement Between an Oscillator and Continuous Fields,which have finite degrees of freedom. In this chapter, we study the entanglement between a mechanical oscillator and a coherent continuous optical field which contains infinite degrees of freedom. This system is interesting because it lies in the heart of all optomechanical systems. With a rigorous 作者: 束以馬具 時(shí)間: 2025-3-29 23:28
Nonlinear Optomechanical System for Probing Mechanical Energy Quantization,otivated by the pioneering theoretical work of Santamore (Phys Rev B 70:144301, 2004) Martin and Zureck (Phys Rev Lett 98:120401, 2007), and by recent experimental work of Thompson et?al. (Nature 452:72–75, 2008), we consider the quantum limit for probing mechanical energy quantization with mechanic作者: 宏偉 時(shí)間: 2025-3-30 03:04 作者: 謊言 時(shí)間: 2025-3-30 04:17 作者: Blasphemy 時(shí)間: 2025-3-30 08:25
Applications to Robust Control,he characteristic frequency of the optomechanical interaction is larger than that of the thermal noise. In addition, we introduce effective optical modes, which are ordered by their entanglement strength, to better understand the entanglement structure, in analogy with the energy spectrum of an atom作者: Afflict 時(shí)間: 2025-3-30 15:12
Universal Entanglement Between an Oscillator and Continuous Fields,he characteristic frequency of the optomechanical interaction is larger than that of the thermal noise. In addition, we introduce effective optical modes, which are ordered by their entanglement strength, to better understand the entanglement structure, in analogy with the energy spectrum of an atom作者: 中世紀(jì) 時(shí)間: 2025-3-30 17:54
Exploring Macroscopic Quantum Mechanics in Optomechanical Devices作者: 憤怒歷史 時(shí)間: 2025-3-30 21:35
