Engineering the Atom-Photon Interaction: Controlling by Ana Predojević, Morgan W. Mitchell

By Ana Predojević, Morgan W. Mitchell

This e-book presents a accomplished view of the modern equipment for quantum-light engineering. particularly, it addresses diversified technological branches and accordingly permits the reader to speedy establish the simplest expertise - software fit. Non-classical gentle is a flexible instrument, confirmed to be an intrinsic a part of a variety of quantum applied sciences. Its old importance has made it the topic of many textual content books written either from theoretical and experimental viewpoint. This ebook takes one other standpoint through giving an perception to trendy applied sciences used to generate and control quantum light.

Show description

Read or Download Engineering the Atom-Photon Interaction: Controlling Fundamental Processes with Photons, Atoms and Solids PDF

Similar microwaves books

Design of FET frequency multipliers and harmonic oscillators

Introducing the applying of box impact Transistors (FET) as frequency multipliers and harmonic oscillators, this article places emphasis on nonlinear options, and encompasses a minimum quantity of arithmetic and a mixture of conception and experimentation. It goals to assist microwave and millimeter-wave engineers understand the elemental techniques and layout principles of frequency multipliers and harmonic oscillators.

Coding for Optical Channels

Coding for Optical ChannelsIvan DjordjevicWilliam RyanBane VasicIn order to evolve to the ever-increasing calls for for high-speed transmission and distance-independent connectivity, today’s community operators are imposing a hundred Gb/s in line with dense wavelength department multiplexing (DWDM) channel. At these facts charges, the functionality of fiber-optic communique platforms is degraded considerably because of intra- and inter-channel fiber nonlinearities, polarization-mode dispersion (PMD), and chromatic dispersion.

Photonics: A Short Course

This prolonged and revised version will function a concise, self-contained, updated creation to Photonics for undergraduate scholars. it may even be used as a primer via researchers and execs who begin operating within the box. mixing thought with technical descriptions, the publication covers a variety of themes, together with the overall mechanism of laser motion, non-stop and pulsed laser operation, optical propagation in isotropic and anisotropic media, working rules and constitution of passive optical parts, electro-optic and acousto-optic modulation, solid-state lasers, semiconductor lasers and LEDs, nonlinear optical phenomena, and optical fiber parts and units.

Silicon Photonics III: Systems and Applications

This publication is quantity III of a sequence of books on silicon photonics. It stories at the improvement of totally built-in platforms the place many various photonics part are built-in jointly to construct complicated circuits. this is often the demonstration of the totally potentiality of silicon photonics. It incorporates a variety of chapters written by way of engineers and scientists of the most businesses, study facilities and universities energetic within the box.

Additional info for Engineering the Atom-Photon Interaction: Controlling Fundamental Processes with Photons, Atoms and Solids

Sample text

35) takes the form of a differential equation c˙cav φout = √ 2κ −κ √ 2κ −r ccav φin . 37) This describes the coupling of a resonant photon into and out of the cavity mode. The reader might note that the result obtained from our simplified input-output model is fully equivalent to the conclusions drawn from the more sophisticated standard approach that involves a decomposition of the continuum into a large number of frequency modes [87]. No such decomposition is applied here as we study the problem uniquely in the time domain.

Kuhn, G. Rempe, Photon statistics of a non-stationary periodically driven single-photon source. New J. Phys. 6, 86 (2004) 43. J. , Deterministic generation of single photons from one atom trapped in a cavity. Science 303, 1992–1994 (2004) 44. M. , A single-photon server with just one atom. Nat. Phys. 3, 253–255 (2007) 45. T. C. Webster, A. Kuhn, G. Rempe, Single-atom single-photon quantum interface. Science 317, 488 (2007) 46. B. , Photon-photon entanglement with a single trapped atom. Phys. Rev.

1 Indistinguishability of Photons At first glance, one would expect any single-photon emitter that is based on a single quantum system of well-defined level structure to deliver indistinguishable photons of well-defined energy. However, this is often not the case for a large number of reasons. For instance, multiple pathways leading to the desired single-photon emission or the degeneracy of spin states might lead to broadening of the spectral mode or to photons in different polarisation states, entangled with the atomic spin [45].

Download PDF sample

Rated 4.58 of 5 – based on 10 votes

Related posts