Curriculum Vitae Irinel Chiorescu
... Vita for Irinel Chiorescu Research and Original Creative Work My research interests lie in the broad area of quantum effects at nanoscopic scale. The main research direction I developed at FSU is focusing on quantum coherence and it involves studies of spin dynamics in diluted spin systems and mole ...
... Vita for Irinel Chiorescu Research and Original Creative Work My research interests lie in the broad area of quantum effects at nanoscopic scale. The main research direction I developed at FSU is focusing on quantum coherence and it involves studies of spin dynamics in diluted spin systems and mole ...
mopor046
... binary so-called SDDS files. This allows to store detailed particle tracking data even for long tracking times. SDDS interfaces are available to command line, Java, Python and Matlab. Also the C API was recently made accessible (libSDDS1 from SDDSToolKit-devel package). For these reasons, Elegant wa ...
... binary so-called SDDS files. This allows to store detailed particle tracking data even for long tracking times. SDDS interfaces are available to command line, Java, Python and Matlab. Also the C API was recently made accessible (libSDDS1 from SDDSToolKit-devel package). For these reasons, Elegant wa ...
T.C UNIVERSITY of GAZIANTEP DEPARTMENT OF ENGINEERING
... 0 we immediately see that the spin angular is allowed to be infinitely large. If we exclude this last ...
... 0 we immediately see that the spin angular is allowed to be infinitely large. If we exclude this last ...
www.osa-opn.org 36 | OPN Optics & Photonics News Illustration by Phil Saunders/ spacechannel.org
... specific case of orbital angular momentum), the participating modes for the SPDC, SFWM and TOSPand in frequency/time, as well as sources of hyper-entangled DC processes. photon pairs with simultaneous entanglement in more than one degree of freedom. Alternate processes for generating non-classical l ...
... specific case of orbital angular momentum), the participating modes for the SPDC, SFWM and TOSPand in frequency/time, as well as sources of hyper-entangled DC processes. photon pairs with simultaneous entanglement in more than one degree of freedom. Alternate processes for generating non-classical l ...
Polariton Superfluids Reveal Quantum Hydrodynamic - Cnr-Nano
... formation of vortices and solitons has been observed by engineering the density and phase profile in atomic [5] and polaritonic [6,7] condensates. Polaritons are 2D composite bosons arising from the strong coupling between quantum well excitons and photons confined in a monolithic semiconductor micr ...
... formation of vortices and solitons has been observed by engineering the density and phase profile in atomic [5] and polaritonic [6,7] condensates. Polaritons are 2D composite bosons arising from the strong coupling between quantum well excitons and photons confined in a monolithic semiconductor micr ...
Quantum information processing by nuclear magnetic resonance
... pseudopure ensembles where none of the molecules are in the associated spin state at all.11 This lack of a well-defined microscopic interpretation means that quantum information processing based on liquid-state NMR cannot be used to settle foundational issues in quantum mechanics such as the existen ...
... pseudopure ensembles where none of the molecules are in the associated spin state at all.11 This lack of a well-defined microscopic interpretation means that quantum information processing based on liquid-state NMR cannot be used to settle foundational issues in quantum mechanics such as the existen ...
Quantum Wires and Quantum Point Contacts
... non-Ohmic system: the series resistance is much smaller than the sum of the individual QPC resistances One needs quantum mechanics to understand such behavior – after the first QPC the electron beam gets collimated, and then it is prepared to pass through the second QPC without backscattering. ...
... non-Ohmic system: the series resistance is much smaller than the sum of the individual QPC resistances One needs quantum mechanics to understand such behavior – after the first QPC the electron beam gets collimated, and then it is prepared to pass through the second QPC without backscattering. ...
Steven French and Décio Krause, Identity in Physics: A Historical
... rather than two. One cannot tell which boson is which, perhaps not just because of a lack of epistemic access to that which might constitute the ‘whichness’ of the bosons, but because they lack such ‘whichness’ from the start. But that there are two bosons, not one, is a fact. Secondly, in thinking ...
... rather than two. One cannot tell which boson is which, perhaps not just because of a lack of epistemic access to that which might constitute the ‘whichness’ of the bosons, but because they lack such ‘whichness’ from the start. But that there are two bosons, not one, is a fact. Secondly, in thinking ...
Spin Wave Technology
... Why don’t precessing particles radiate away all of their energy? • According to classical electrodynamics, all electrically charged particles, like the electron for example, should radiate away energy from orbital or precessional motion. • However, all particles can also absorb just as much energy ...
... Why don’t precessing particles radiate away all of their energy? • According to classical electrodynamics, all electrically charged particles, like the electron for example, should radiate away energy from orbital or precessional motion. • However, all particles can also absorb just as much energy ...
Quantum correlations
... The optimization is over all possible measurements Π In general, it is very difficult to identify the optimal measurement disturbs the systems - and correlations - the least; this makes a nontrivial technical issue in computing discord For pure state, entanglement and discord coincide For mixed stat ...
... The optimization is over all possible measurements Π In general, it is very difficult to identify the optimal measurement disturbs the systems - and correlations - the least; this makes a nontrivial technical issue in computing discord For pure state, entanglement and discord coincide For mixed stat ...
Deterministic Controlled-NOT Gate For Single-Photon Two
... It has been recognized that building a deterministic quantum information processor (QIP) is possible for systems that use several degrees of freedom of a singlephoton to encode multiple qubits [3]. This type of QIP cannot be used for general-purpose quantum computation because it requires resources ...
... It has been recognized that building a deterministic quantum information processor (QIP) is possible for systems that use several degrees of freedom of a singlephoton to encode multiple qubits [3]. This type of QIP cannot be used for general-purpose quantum computation because it requires resources ...
Bell's theorem
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Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: