What Could You Do With A Quantum Computer?
... 5. Limits of quantum computing, including recent work 6. The future ...
... 5. Limits of quantum computing, including recent work 6. The future ...
Quantum Manipulation of Ultracold Atoms and Photons
... where the number of atoms in one of the states is determined to better than the shot noise limit via the interaction with an optical-resonator mode, while it remains, even in principle, impossible to determine which atom is in which state. This creates a reduced uncertainty in the atom number differ ...
... where the number of atoms in one of the states is determined to better than the shot noise limit via the interaction with an optical-resonator mode, while it remains, even in principle, impossible to determine which atom is in which state. This creates a reduced uncertainty in the atom number differ ...
Lecture 7_Quantum Chemistry
... All matter (particles) has wave-like properties ◦ so-called particle-wave duality Particle-waves are described in a probabilistic manner ◦ electron doesn’t whiz around the nucleus, it has a probability distribution describing where it might be found ◦ allows for seemingly impossible “quantum tunneli ...
... All matter (particles) has wave-like properties ◦ so-called particle-wave duality Particle-waves are described in a probabilistic manner ◦ electron doesn’t whiz around the nucleus, it has a probability distribution describing where it might be found ◦ allows for seemingly impossible “quantum tunneli ...
1 The density operator
... University of Oregon 20 April 2012 I offer here some background for Chapter 3 of J. J. Sakurai, Modern Quantum Mechanics. ...
... University of Oregon 20 April 2012 I offer here some background for Chapter 3 of J. J. Sakurai, Modern Quantum Mechanics. ...
The effects of the Aharonov-Bohm type as tests of the relativistic
... Thus, it can be of general interest a discussion with the aim of rescuing the ...
... Thus, it can be of general interest a discussion with the aim of rescuing the ...
Suppose now that a local hidden variable theory provides a full
... Bell’s theorem deals with strong property realism (strong property contextuality) and locality; by contrast, the Kochen-Specker theorem (KS for short) deals with strong property realism, local or not, but not with property contextuality. There is a long tradition of counterexamples to strong propert ...
... Bell’s theorem deals with strong property realism (strong property contextuality) and locality; by contrast, the Kochen-Specker theorem (KS for short) deals with strong property realism, local or not, but not with property contextuality. There is a long tradition of counterexamples to strong propert ...
P R L E T T E R S HYSICAL
... a time dependent system like a vibrating mirror (see the experiment of Ref. [3]) or a target in a wave packet state. In Fig. 1, the electric field generated by the charge density (thus the transition probability) depends on off-diagonal elements r共k, k0 兲 of the electron beam. We go beyond the usual ...
... a time dependent system like a vibrating mirror (see the experiment of Ref. [3]) or a target in a wave packet state. In Fig. 1, the electric field generated by the charge density (thus the transition probability) depends on off-diagonal elements r共k, k0 兲 of the electron beam. We go beyond the usual ...
Another version - Scott Aaronson
... Theorem: Suppose U implements (say) a computationallyuniversal, reversible cellular automaton. Then after t=exp(n) iterations, C(|t) is superpolynomial in n, unless something very unlikely happens with complexity classes (PSPACEPP/poly) Proof Sketch: I proved in 2004 that PP=PostBQP Suppose C(| ...
... Theorem: Suppose U implements (say) a computationallyuniversal, reversible cellular automaton. Then after t=exp(n) iterations, C(|t) is superpolynomial in n, unless something very unlikely happens with complexity classes (PSPACEPP/poly) Proof Sketch: I proved in 2004 that PP=PostBQP Suppose C(| ...
Syllabus for Semesters I to VI For Physics (Hons.) for 2011-2014
... 4. OP3a. Physical Optics: Wave theory of light: Huygen’s principle, deduction of laws of reflection and refraction. Interference of light waves: Young’s experiment, spatial and temporal coherence, intensity distribution, Fresnel’s biprism, interference in thin films, Newton’s ring, Michelson interfe ...
... 4. OP3a. Physical Optics: Wave theory of light: Huygen’s principle, deduction of laws of reflection and refraction. Interference of light waves: Young’s experiment, spatial and temporal coherence, intensity distribution, Fresnel’s biprism, interference in thin films, Newton’s ring, Michelson interfe ...
Enhancement of quantum dot peak-spacing fluctuations
... as the dot size, the ratio σ/R can be varied experimentally in the relevant regime and these predictions, including the nonmonotonicity, could be tested. The observed features can be understood as follows. Based on Wen’s description of the edges of the quantum Hall liquid [11], Kinaret et al. [12] h ...
... as the dot size, the ratio σ/R can be varied experimentally in the relevant regime and these predictions, including the nonmonotonicity, could be tested. The observed features can be understood as follows. Based on Wen’s description of the edges of the quantum Hall liquid [11], Kinaret et al. [12] h ...
BS1 - Institute of Physics, Bhubaneswar
... This question was asked to Physics World readers - and more than 200 replied. Majority vote was for the classic experiments by Galileo, Millikan, Newton and Thomas Young. But uniquely among the top 10, Young's double-slit experiment applied to the interference of single ...
... This question was asked to Physics World readers - and more than 200 replied. Majority vote was for the classic experiments by Galileo, Millikan, Newton and Thomas Young. But uniquely among the top 10, Young's double-slit experiment applied to the interference of single ...