Quantum Set Intersection and its Application to Associative Memory
... can be done using only one query to a quantum oracle implementing it, while a classical solution would require an exponential number of queries. Another example of the advantage of quantum algorithms over classical ones was presented by Simon (1994), in which a function is known to have the property ...
... can be done using only one query to a quantum oracle implementing it, while a classical solution would require an exponential number of queries. Another example of the advantage of quantum algorithms over classical ones was presented by Simon (1994), in which a function is known to have the property ...
Hong-Ou-Mandel interference between triggered and heralded
... trapped atom undergoes molasses cooling and is optically pumped to the 5S 1/2 , F =2, mF =-2 state. To ensure a sufficiently long coherence time of the prepared state, we apply a bias magnetic field of 2 gauss along the optical axis. After the atom is prepared in the initial state, it can be excited ...
... trapped atom undergoes molasses cooling and is optically pumped to the 5S 1/2 , F =2, mF =-2 state. To ensure a sufficiently long coherence time of the prepared state, we apply a bias magnetic field of 2 gauss along the optical axis. After the atom is prepared in the initial state, it can be excited ...
Alignment and Survey - Oxford Particle Physics home
... • But it’s more complicated than SM Higgs. – The Minimal Supersymmetric model allows the 3 forces to Unify at the GUT scale. – Requires a higgs mass less than 130 GeV/c2 (falsifiable!) – Possible candidates for Dark Matter. ...
... • But it’s more complicated than SM Higgs. – The Minimal Supersymmetric model allows the 3 forces to Unify at the GUT scale. – Requires a higgs mass less than 130 GeV/c2 (falsifiable!) – Possible candidates for Dark Matter. ...
Pitkanen_03B
... here in very metaphoral sense) rather than interfering with single deterministic Schrödinger evolution, the basic problem of quantum measurement theory finds a resolution. The interpretation of quantum jump as a moment of Consciousness means that volition and conscious experience are outside space-t ...
... here in very metaphoral sense) rather than interfering with single deterministic Schrödinger evolution, the basic problem of quantum measurement theory finds a resolution. The interpretation of quantum jump as a moment of Consciousness means that volition and conscious experience are outside space-t ...
Spin Foam Models for Quantum Gravity
... quantum gravity from a 4-dimensional covariant perspective. This has given rise to the so-called spin foam approach to quantum gravity. Its main idea is the construction of a rigorous definition of the path integral for gravity based on the deep insights obtained in the canonical framework of loop q ...
... quantum gravity from a 4-dimensional covariant perspective. This has given rise to the so-called spin foam approach to quantum gravity. Its main idea is the construction of a rigorous definition of the path integral for gravity based on the deep insights obtained in the canonical framework of loop q ...
Many Body Quantum Mechanics
... (Hint: Use Jensen’s inequality and the fact that t 7→ t log t is strictly convex. The problem is easier if one assumes that exp(−H/T ) is trace class, otherwise some version of the spectral Theorem is needed4 . ) ...
... (Hint: Use Jensen’s inequality and the fact that t 7→ t log t is strictly convex. The problem is easier if one assumes that exp(−H/T ) is trace class, otherwise some version of the spectral Theorem is needed4 . ) ...
Correlated-Photon Experiments for Undergraduate Labs
... laboratory method that serves to teach the fundamentals of quantum mechanics. The experiments can be set up on an optical breadboard. The experiments that we present here were developed by undergraduates as part of their upper-level laboratory requirement at Colgate University. We later assembled th ...
... laboratory method that serves to teach the fundamentals of quantum mechanics. The experiments can be set up on an optical breadboard. The experiments that we present here were developed by undergraduates as part of their upper-level laboratory requirement at Colgate University. We later assembled th ...
Review on Nucleon Spin Structure
... • We will not repeat those but discuss two problems related to nucleon spin which we believe where confusions remain. 1.It is still a quite popular idea that the polarized deep inelastic lepton-nucleon scattering (DIS) measured quark spin invalidates the constituent quark model (CQM). I will show th ...
... • We will not repeat those but discuss two problems related to nucleon spin which we believe where confusions remain. 1.It is still a quite popular idea that the polarized deep inelastic lepton-nucleon scattering (DIS) measured quark spin invalidates the constituent quark model (CQM). I will show th ...
Modeling and Control of Quantum Systems: An Introduction
... and most likely adapt them to the peculiarities of his/her own setting. The models we discuss are always continuous in time: this of course leaves out a significant number of interesting results, but allows for a more consistent presentation and, in our opinion, a closer connection to classical cont ...
... and most likely adapt them to the peculiarities of his/her own setting. The models we discuss are always continuous in time: this of course leaves out a significant number of interesting results, but allows for a more consistent presentation and, in our opinion, a closer connection to classical cont ...
From Quantum Gates to Quantum Learning: recent research and
... • Put all 7-bits into a superposition state • superposition allows quantum computer to make calculations on all 128 possible numbers (27) in ONE iteration i.e. finishes in 1 second. • Tremendous possibilities… imagine doing computations on even larger sample spaces all at the same time!!! ...
... • Put all 7-bits into a superposition state • superposition allows quantum computer to make calculations on all 128 possible numbers (27) in ONE iteration i.e. finishes in 1 second. • Tremendous possibilities… imagine doing computations on even larger sample spaces all at the same time!!! ...
2015_0042_Quantum Robot = CSP = Quantum Emotional
... created in AQC to program problems such as Maximum Clique or SAT. • This programming is like on “assembly level” but with time more efficient methods will be developed in our group. – This is also similar to programming current Field-Programmable Gate ...
... created in AQC to program problems such as Maximum Clique or SAT. • This programming is like on “assembly level” but with time more efficient methods will be developed in our group. – This is also similar to programming current Field-Programmable Gate ...
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: