PHYS_483_ProjectFINA..
... The current search for an environmentally and economically sustainable energy source has put increase pressure on the development of inexpensive and efficient renewable energy sources to replace the existing, heavily polluting, energy production methods. This has caused a rapid rise in funding direc ...
... The current search for an environmentally and economically sustainable energy source has put increase pressure on the development of inexpensive and efficient renewable energy sources to replace the existing, heavily polluting, energy production methods. This has caused a rapid rise in funding direc ...
Polaronic states in II–VI quantum dot
... states, only with different effective mass (which for a hole is no longer isotropic) and potential discontinuity at the interface. In the other hand, we consider small quantum dots, i.e. the strong confinement regime, which leads to well-separated electron and hole levels within the dot. This allows ...
... states, only with different effective mass (which for a hole is no longer isotropic) and potential discontinuity at the interface. In the other hand, we consider small quantum dots, i.e. the strong confinement regime, which leads to well-separated electron and hole levels within the dot. This allows ...
Honors Convocation Address.pdf
... force is the same as the one for the gravity force. However, this model was known to be inaccurate right from the start because even classical theory would require the orbiting electron to give off energy in the form of light and go into a “death spiral” ending with its collapse into the nucleus. [s ...
... force is the same as the one for the gravity force. However, this model was known to be inaccurate right from the start because even classical theory would require the orbiting electron to give off energy in the form of light and go into a “death spiral” ending with its collapse into the nucleus. [s ...
Why genetic information processing could have a quantum basis
... and each of the variables is made as random as possible. On the other hand, processing errors in an efficiently packed message destroys information. If correlations exist amongst different parts of a message, they can be exploited to eliminate local disturbances and to reconstruct the correct messag ...
... and each of the variables is made as random as possible. On the other hand, processing errors in an efficiently packed message destroys information. If correlations exist amongst different parts of a message, they can be exploited to eliminate local disturbances and to reconstruct the correct messag ...
doc - StealthSkater
... and real numbers whereas the latter correspond to a tensor product of hyper-finite II1 factor and I∞ factor (for the basic wisdom about von Neumann algebras, see this). 2. One can assign to any M-matrix in factor M an M-matrix associated with any quantum space M/N by tracing over N. This could also ...
... and real numbers whereas the latter correspond to a tensor product of hyper-finite II1 factor and I∞ factor (for the basic wisdom about von Neumann algebras, see this). 2. One can assign to any M-matrix in factor M an M-matrix associated with any quantum space M/N by tracing over N. This could also ...
Experimental Satellite Quantum Communications
... encoded in four different polarization states of two mutually unbiased bases. Setup.—In order to minimize the background radiation and dark counts, it is of paramount importance, on the Bob side, to minimize the dwell time of the qubit detection: the latter is related to the precision in the assessm ...
... encoded in four different polarization states of two mutually unbiased bases. Setup.—In order to minimize the background radiation and dark counts, it is of paramount importance, on the Bob side, to minimize the dwell time of the qubit detection: the latter is related to the precision in the assessm ...
Identity Rule for Classical and Quantum Theories
... an orthomodular lattice cannot be expressed by means of either quantum or classical identity. Proof. Free orthomodular lattices with two generators (expressions with two elements) can be represented by the direct product OM6 × 24 (Beran, 1985). Denoting the elements of the Bollean algebra 24 by b1 = ...
... an orthomodular lattice cannot be expressed by means of either quantum or classical identity. Proof. Free orthomodular lattices with two generators (expressions with two elements) can be represented by the direct product OM6 × 24 (Beran, 1985). Denoting the elements of the Bollean algebra 24 by b1 = ...
CBO_Paper3_ConsciousnessandQuantumMechanics
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
COPYRIGHT 2002 SCIENTIFIC AMERICAN, INC.
... latitude and longitude of the corresponding point on the sphere, and in principle each may be given to arbitrary precision. These numbers can encode a long string of bits. For example, 011101101... could be encoded as a state with latitude 01 degrees, 11 minutes and 01.101... seconds. This reasoning ...
... latitude and longitude of the corresponding point on the sphere, and in principle each may be given to arbitrary precision. These numbers can encode a long string of bits. For example, 011101101... could be encoded as a state with latitude 01 degrees, 11 minutes and 01.101... seconds. This reasoning ...
Quantum computing
Quantum computing studies theoretical computation systems (quantum computers) that make direct use of quantum-mechanical phenomena, such as superposition and entanglement, to perform operations on data. Quantum computers are different from digital computers based on transistors. Whereas digital computers require data to be encoded into binary digits (bits), each of which is always in one of two definite states (0 or 1), quantum computation uses quantum bits (qubits), which can be in superpositions of states. A quantum Turing machine is a theoretical model of such a computer, and is also known as the universal quantum computer. Quantum computers share theoretical similarities with non-deterministic and probabilistic computers. The field of quantum computing was initiated by the work of Yuri Manin in 1980, Richard Feynman in 1982, and David Deutsch in 1985. A quantum computer with spins as quantum bits was also formulated for use as a quantum space–time in 1968.As of 2015, the development of actual quantum computers is still in its infancy, but experiments have been carried out in which quantum computational operations were executed on a very small number of quantum bits. Both practical and theoretical research continues, and many national governments and military agencies are funding quantum computing research in an effort to develop quantum computers for civilian, business, trade, and national security purposes, such as cryptanalysis.Large-scale quantum computers will be able to solve certain problems much more quickly than any classical computers that use even the best currently known algorithms, like integer factorization using Shor's algorithm or the simulation of quantum many-body systems. There exist quantum algorithms, such as Simon's algorithm, that run faster than any possible probabilistic classical algorithm.Given sufficient computational resources, however, a classical computer could be made to simulate any quantum algorithm, as quantum computation does not violate the Church–Turing thesis.