03040nam a22004935i 4500001001800000003000900018005001700027007001500044008004100059020001800100020001900118024002500137040000900162100003300171245010300204264003800307300003300345336002600378337002600404338003900430347002400469490003500493505021400528520115000742650001501892650001901907650002001926650002301946650002001969650001501989650002002004650003802024650004102062650004502103650005902148710003402207773002002241776003602261830003502297856009302332942001202425999001702437952009202454978-0-387-25834-8DE-He21320260521091837.0cr nn 008mamaa100301s2005 xxu| s |||| 0|eng d a9780387258348 a997803872583487 a10.1007/b1362282doi cCICY1 aSantos, Héctor J.eauthor.10aPrinciples and Applications of NanoMEMS Physicsh[recurso electrónico] /cby Héctor J. Santos. 1aBoston, MA :bSpringer US,c2005. aXV, 254 p.bonline resource. atextbtxt2rdacontent acomputerbc2rdamedia arecurso en líneabcr2rdacarrier atext filebPDF2rda1 aMicrosystems,x1389-2134 ;v150 aNanoelectromechanical Systems -- Nanomes Physics: Quantum Wave-Particle Phenomena -- Nanomems Physics: Quantum Wave Phenomena -- Nanomems Applications: Circuits and Systems -- Nanomems Applications: Photonics. aPrinciples and Applications of NanoMEMS Physics presents the first unified exposition of the physical principles at the heart of NanoMEMS-based devices and applications. In particular, after beginning with a comprehensive presentation of the fundamentals and limitations of nanotechnology and MEMS fabrication techniques, the book addresses the physics germane to this dimensional regime, namely, quantum wave-particle phenomena, including, the manifestation of charge discreteness, quantized electrostatic actuation, and the Casimir effect, and quantum wave phenomena, including, quantized electrical conductance, quantum interference, Luttinger liquids, quantum entanglement, superconductivity and cavity quantum electrodynamics. Potential building blocks are also addressed for NanoMEMS applications, including, nanoelectromechanical quantum circuits and systems such as charge detectors, the which-path electron interferometer, and the Casimir oscillator, as well as a number of quantum computing implementation paradigms. Finally, NanoMEMS applications in photonics are addressed, including nanophotonic light sources and plasmonic devices. 0aCHEMISTRY. 0aLASER PHYSICS. 0aQUANTUM OPTICS. 0aOPTICAL MATERIALS. 0aNANOTECHNOLOGY.14aCHEMISTRY.24aNANOTECHNOLOGY.24aOPTICAL AND ELECTRONIC MATERIALS.24aELECTRONIC AND COMPUTER ENGINEERING.24aLASER TECHNOLOGY AND PHYSICS, PHOTONICS.24aQUANTUM OPTICS, QUANTUM ELECTRONICS, NONLINEAR OPTICS.2 aSpringerLink (Online service)0 tSpringer eBooks08iPrinted edition:z9781402032387 0aMicrosystems,x1389-2134 ;v1540uhttp://dx.doi.org/10.1007/b136228zVer el texto completo en las instalaciones del CICY 2ddccER c32426d32426 00102ddc40708LEaCICYbCICYcELd2025-07-10l0r2025-07-10 08:39:34w2025-07-10yER