000076797 001__ 76797
000076797 005__ 20190115134157.0
000076797 037__ $$aTAZ-TFG-2018-3089
000076797 041__ $$aeng
000076797 1001_ $$aMilla Val, Jaime
000076797 24200 $$aSimulating Measurement-induced Non Linearity with a Quantum-Optical Computational toolbox
000076797 24500 $$aSimulating Measurement-induced Non Linearity with a Quantum-Optical Computational toolbox
000076797 260__ $$aZaragoza$$bUniversidad de Zaragoza$$c2018
000076797 500__ $$aRealizado durante el Erasmus en Paderborn (Alemania)
000076797 506__ $$aby-nc-sa$$bCreative Commons$$c3.0$$uhttp://creativecommons.org/licenses/by-nc-sa/3.0/
000076797 520__ $$aGenerating measurement-induced non linearity with a BS (Beam splitter) is an easy way to produce entangled states and potentially reduce the quadratures uncertainty as BS is a simple tool that can be implemented in a huge number of experimental setups without too much difficulty. The importance of this kind of states arises in the fields of quantum information and communication and metrology. To study this method, simulations, with the help of the software package QuTiP for Python, of three different setups involving BS, detectors and phase selectors have been done varying different parameters of the setup. In a simulation with one BS and a detector a reduction of the quadratures uncertainty has been observed. It has been found that same levels of entanglement are reached with one BS or two BS for a photon and a coherent state as input states.
000076797 521__ $$aGraduado en Física
000076797 540__ $$aDerechos regulados por licencia Creative Commons
000076797 700__ $$aBartley, Tim$$edir.
000076797 7102_ $$aUniversidad de Zaragoza$$b $$c
000076797 8560_ $$f699305@celes.unizar.es
000076797 8564_ $$s1752535$$uhttps://zaguan.unizar.es/record/76797/files/TAZ-TFG-2018-3089.pdf$$yMemoria (eng)
000076797 909CO $$ooai:zaguan.unizar.es:76797$$pdriver$$ptrabajos-fin-grado
000076797 950__ $$a
000076797 951__ $$adeposita:2019-01-15
000076797 980__ $$aTAZ$$bTFG$$cCIEN
000076797 999__ $$a20180912143445.CREATION_DATE