標(biāo)題: Titlebook: Getting Started in Quantum Optics; Ray LaPierre Textbook 2022 The Editor(s) (if applicable) and The Author(s), under exclusive license to [打印本頁] 作者: Strategy 時間: 2025-3-21 17:10
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書目名稱Getting Started in Quantum Optics網(wǎng)絡(luò)公開度學(xué)科排名
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書目名稱Getting Started in Quantum Optics讀者反饋
書目名稱Getting Started in Quantum Optics讀者反饋學(xué)科排名
作者: Conspiracy 時間: 2025-3-21 22:23
Textbook 2022 of entanglement and coincidence measurements are described including ghost imaging, quantum illumination, absolute photodetector calibration, and interaction-free measurement. With quantum optics playing a central role in the so-called “second quantum revolution,” this book, equipped with plenty of作者: glisten 時間: 2025-3-22 01:00
,Entscheidungslogische Grundtatbest?nde,um system from its classical counterpart. Once you know the Hamiltonian of the quantum system, you can determine its quantum properties from the time-dependent Schrodinger equation. The canonical quantization procedure gives us the canonically conjugate variables of the system that satisfy a commuta作者: EXPEL 時間: 2025-3-22 06:04
Zielkonforme Organisationsgestaltung the QHO due to Dirac is introduced along with the creation and annihilation operators. The expectation value and uncertainty of the position and momentum are derived, resulting in the Heisenberg uncertainty relation.作者: A簡潔的 時間: 2025-3-22 09:58 作者: 澄清 時間: 2025-3-22 14:46 作者: 澄清 時間: 2025-3-22 18:03 作者: 準(zhǔn)則 時間: 2025-3-22 21:55
Zielkonforme Organisationsgestaltungsed hidden variables in an attempt to explain the probabilities of quantum mechanics. John Bell proposed a test, using entangled states, showing that quantum mechanics cannot be explained by hidden variables.作者: Toxoid-Vaccines 時間: 2025-3-23 03:30
Grundlagen der Orthop?dischen Mechanikode radiation is a “toy model” or approximation, since all real radiation is multimode. In reality, an infinite wave train of a single frequency doesn’t exist. In this chapter, we introduce a more realistic description of light, called multimode light. The quantum optics treatment for the detection 作者: chastise 時間: 2025-3-23 06:41 作者: 托人看管 時間: 2025-3-23 13:34
https://doi.org/10.1007/978-3-662-29980-7 life is incoherent light (also called chaotic light or thermal light)—for example, from an incandescent source (resistance filament), the Sun, blackbody radiation, etc. In this chapter, the quantum optics treatment of incoherent or thermal light is introduced. We derive the properties of incoherent作者: Infantry 時間: 2025-3-23 16:41 作者: 馬賽克 時間: 2025-3-23 18:03 作者: 儲備 時間: 2025-3-24 00:12 作者: inflame 時間: 2025-3-24 05:44 作者: 模范 時間: 2025-3-24 10:34 作者: 人類學(xué)家 時間: 2025-3-24 14:40 作者: profligate 時間: 2025-3-24 16:27
Quantum Harmonic Oscillator, the QHO due to Dirac is introduced along with the creation and annihilation operators. The expectation value and uncertainty of the position and momentum are derived, resulting in the Heisenberg uncertainty relation.作者: 鴕鳥 時間: 2025-3-24 19:19 作者: 主動脈 時間: 2025-3-25 01:14 作者: mighty 時間: 2025-3-25 04:49
Single Photon on a Beam Splitter,. We derive the photodetection probabilities for a single photon on a beam splitter, including single photon detection and double photon detection (coincidence counting). The correlation function is introduced for classical and quantum light. We show that the beam splitter creates an entangled state作者: BROOK 時間: 2025-3-25 09:55
Entanglement,sed hidden variables in an attempt to explain the probabilities of quantum mechanics. John Bell proposed a test, using entangled states, showing that quantum mechanics cannot be explained by hidden variables.作者: FRAX-tool 時間: 2025-3-25 14:39
Multimode Quantized Radiation,ode radiation is a “toy model” or approximation, since all real radiation is multimode. In reality, an infinite wave train of a single frequency doesn’t exist. In this chapter, we introduce a more realistic description of light, called multimode light. The quantum optics treatment for the detection 作者: 培養(yǎng) 時間: 2025-3-25 19:24
Coherent State,? We will see that the coherent state can be described as a superposition of Fock states. The properties of the coherent state are derived, including the Poisson distribution of photon number. The quadrature components of the coherent state are derived, showing that the coherent state is a minimum u作者: 不利 時間: 2025-3-25 21:11 作者: 轉(zhuǎn)向 時間: 2025-3-26 01:36
Coherent State in an Interferometer, detection. The uncertainty and signal-to-noise ratio (SNR) of the homodyne signal is analyzed, leading to an important conclusion—the SNR for the coherent state arises from the uncertainty in the field quadrature of the vacuum input to the interferometer.作者: Compass 時間: 2025-3-26 08:09
Squeezed Light,er, we examine one of the most useful of these, called “squeezed light.” We show that the uncertainty in the phase or amplitude quadrature of squeezed light can be reduced as compared to coherent light, making squeezed light very useful in metrology. The squeezed vacuum state is introduced, and the 作者: BRINK 時間: 2025-3-26 11:27 作者: Palliation 時間: 2025-3-26 16:29 作者: 粗魯性質(zhì) 時間: 2025-3-26 19:05 作者: Vertebra 時間: 2025-3-27 00:37 作者: 灰姑娘 時間: 2025-3-27 02:46
Getting Started in Quantum Optics978-3-031-12432-7Series ISSN 2510-411X Series E-ISSN 2510-4128 作者: Cloudburst 時間: 2025-3-27 09:12
Ray LaPierreIntroduces quantum optics at undergraduate level with only minimal prerequisites.Includes worked examples and exercises, with a solutions manual for instructors.Can be taught to undergraduates or begi作者: cardiac-arrest 時間: 2025-3-27 12:52
Konzeptionelle Grundtatbest?ndeIn the previous chapter, we examined the properties of the special Fock state, |0?. In this chapter, another special Fock state, |1?, called the single photon state, is presented. The quantum optics treatment of photodetection is explained. Methods of generating and detecting single photons are described.作者: Endometrium 時間: 2025-3-27 14:43 作者: Daily-Value 時間: 2025-3-27 18:14 作者: 勛章 時間: 2025-3-28 01:50 作者: 野蠻 時間: 2025-3-28 05:37 作者: 北京人起源 時間: 2025-3-28 06:44
Single Photon State,In the previous chapter, we examined the properties of the special Fock state, |0?. In this chapter, another special Fock state, |1?, called the single photon state, is presented. The quantum optics treatment of photodetection is explained. Methods of generating and detecting single photons are described.作者: 我沒有強迫 時間: 2025-3-28 13:49
Single Photon in an Interferometer,Another important device in quantum optics is the interferometer. Building on the results of the previous chapter for a beam splitter, the classical and quantum optics treatment of the Mach-Zehnder interferometer is introduced. The case of a single photon in an interferometer is treated, which introduces the concept of wave-particle duality.作者: Iniquitous 時間: 2025-3-28 17:59 作者: OREX 時間: 2025-3-28 18:59 作者: 沙文主義 時間: 2025-3-29 01:27 作者: iodides 時間: 2025-3-29 03:24
https://doi.org/10.1007/978-3-031-12432-7Undergraduate quantum optics textbook; Quantum optics textbook; Quantum optics for undergraduates; Intr作者: 捏造 時間: 2025-3-29 10:24 作者: 精美食品 時間: 2025-3-29 15:15 作者: Trypsin 時間: 2025-3-29 18:43
https://doi.org/10.1007/978-3-322-82430-1 detection. The uncertainty and signal-to-noise ratio (SNR) of the homodyne signal is analyzed, leading to an important conclusion—the SNR for the coherent state arises from the uncertainty in the field quadrature of the vacuum input to the interferometer.作者: 只有 時間: 2025-3-29 20:40
https://doi.org/10.1007/978-3-662-02117-0er, we examine one of the most useful of these, called “squeezed light.” We show that the uncertainty in the phase or amplitude quadrature of squeezed light can be reduced as compared to coherent light, making squeezed light very useful in metrology. The squeezed vacuum state is introduced, and the fragility of the squeezed state is explained.作者: 先驅(qū) 時間: 2025-3-30 01:57 作者: 詼諧 時間: 2025-3-30 05:53 作者: diabetes 時間: 2025-3-30 09:19
Entanglement,sed hidden variables in an attempt to explain the probabilities of quantum mechanics. John Bell proposed a test, using entangled states, showing that quantum mechanics cannot be explained by hidden variables.作者: 圓木可阻礙 時間: 2025-3-30 12:34
Coherent State in an Interferometer, detection. The uncertainty and signal-to-noise ratio (SNR) of the homodyne signal is analyzed, leading to an important conclusion—the SNR for the coherent state arises from the uncertainty in the field quadrature of the vacuum input to the interferometer.作者: 不能妥協(xié) 時間: 2025-3-30 19:05 作者: deface 時間: 2025-3-30 20:57
Quantum Imaging, quantum illumination, absolute detector calibration, and interaction-free measurement are presented as leading applications. These applications demonstrate the spooky behavior of quantum mechanics. For example, we will show you how to observe an object without any photon ever interacting with it!作者: 鎮(zhèn)壓 時間: 2025-3-31 02:04 作者: Diluge 時間: 2025-3-31 06:58 作者: lymphedema 時間: 2025-3-31 10:25
https://doi.org/10.1007/978-3-663-14777-0 average electric field of zero. Although the average field is zero, there is an uncertainty or fluctuation in the field. The properties of the Fock state |0?, called the vacuum, are presented along with the concept of vacuum field fluctuations and their experimental consequences.作者: paltry 時間: 2025-3-31 16:49
https://doi.org/10.1007/978-3-322-85678-4incidence counting). The correlation function is introduced for classical and quantum light. We show that the beam splitter creates an entangled state from a single photon input. The Hanbury Brown–Twiss experiment is introduced for characterizing light sources.作者: 殘忍 時間: 2025-3-31 21:27 作者: 歪曲道理 時間: 2025-4-1 01:00
Grundlagen der Pathologischen Anatomiethe Poisson distribution of photon number. The quadrature components of the coherent state are derived, showing that the coherent state is a minimum uncertainty state, leading to the shot noise limit. The phasor representation of the electric field is introduced, and the number–phase uncertainty relation is derived.作者: 周年紀(jì)念日 時間: 2025-4-1 02:47
https://doi.org/10.1007/978-3-662-29980-7ody radiation, etc. In this chapter, the quantum optics treatment of incoherent or thermal light is introduced. We derive the properties of incoherent light, including the photon number distribution and correlation function, and compare with other types of light.
