PPT-Quantum Entanglement Modern Physics

51011 Spring 2011 Ben Miller Alexander DeCarli Kevin Shaw What is it How do particles become Entangled Parametric Down Conversion A laser usually ultraviolet for its high frequency sends a photon through a nonlinear crystal such as Beta Barium Borate. measurements: . One physicist’s crooked . path from quantum optics to quantum information. Introduction . Squeezed states and optical . interferometry. Ramsey . interferometry. and cat states. Quantum information perspective. Fuentes. University of Nottingham. RELATIVISTIC. . QUANTUM INFORMATION PROCESSING. WITH MOVING CAVITIES. . http://. rqinottingham.weebly.com. /. relativistic quantum information and metrology. postdocs. Fernando . G.S.L. . Brand. ão. University College London. j. oint work with. Michal . Horodecki. arXiv:1206.2947. arXiv:1406.XXXX. Stanford University, . April 2014. Quantum Information Theory. Quant. Comm.. Entanglement as gravity. Vasil. . Penchev. , DSc, Assoc. Prof,. Bulgarian Academy of Science. vasildinev@gmail.com. http://vasil7penchev.wordpress.com. http://www.scribd.com/vasil7penchev. CV: . http://old-philosophy.issk-bas.org/CV/cv-pdf/V.Penchev-CV-eng.pdf. Kaushik P. . Seshadreesan. Joint . work with . Masahiro . Takeoka. & Mark M. Wilde. arXiv:1503.08139 [quant-. ph. ]. QIPA, HRI,. 12/12/2015. Motivation. 2. Point-to-point. Links. Trusted Relay nodes. Kyoto University, YITP, Masatoshi SATO. Mahito Kohmoto (University of Tokyo, ISSP). . Yong-Shi Wu (Utah University). In collaboration with. 2. Review paper on Topological Quantum Phenomena. Y. Tanaka, MS, N. . . Entanglement, discord and harnessing noise. Natalia . Korolkova. . St . Andrews, UK. QUANTUM. INFORMATION. Quantum entanglement: definition and some textbook examples. Going macroscopic: quantum information in infinite-dimensional . Pochung Chen . 陳柏中. National . Tsing. . Hua. University, Taiwan. 10/14/2013, IWCSE, NTU. Acknowledgement. Collaborators. Zhi. -Long . Xue. (NTHU). Ian . P. . McCulloch (UQ, Australia). Ming-Chiang Chung (NCHU). Fernando . G.S.L. . Brand. ão. ETH Zürich. Based on joint work with M. . Christandl. and J. Yard. Journees. . Deferation. de . Reserche. en . Mathematiques. de Paris Centre/GT . Informatique. . Quantum Hamiltonian Complexity. Aram Harrow (MIT). Simons Institute. 16 Jan 2014. Entanglement. Original motivation for quantum computing. [Feynman ‘82]. Nature isn't classical, dammit, and if you want to make a simulation of Nature, you'd better make it quantum mechanical, and by golly it's a wonderful problem, because it doesn't look so easy.. long distance. complexity. Higgs boson. Neutrino masses. Supersymmetry. Quantum gravity. String theory. Large scale structure. Cosmic microwave background. Dark matter. Dark energy. Gravitational waves. . of Correlations and their applications. Natalia . Korolkova. , . St Andrews, UK. C. . Croal. , N. Quinn, L. . Mista. *. University of St. Andrews, UK;. *. Palacky. University, Olomouc, Czech Republic. extracting. . information. on quantum . processes. R. . Demkowicz. -Dobrzański, . Faculty. . of . Physics. , University of Warsaw, Poland. Quantum . Metrology. Magnetometry . utilizing. BEC. . spin. Part 1. Outline. Introduction. Problems of classical physics. Black-body Radiation. experimental observations. Wien’s displacement law. Stefan – Boltzmann law. Rayleigh - Jeans. Wien’s radiation law.