feasibility study
... vacuum: cool it down to zero temperature after evacuation. Absolute zero temperature (-273C) was far removed from the technical possibilities of that century, so it seemed as if the problem was solved. In the 20th century, both theory and experiment have shown that there is a non-thermal radiation i ...
... vacuum: cool it down to zero temperature after evacuation. Absolute zero temperature (-273C) was far removed from the technical possibilities of that century, so it seemed as if the problem was solved. In the 20th century, both theory and experiment have shown that there is a non-thermal radiation i ...
Green`s Function of an Infinite Slot Printed Between Two
... in terms of asymptotic leaky-wave ray contributions, with similarity and agreement with the description provided here. Another problem which has similar physical contents is that of a semi-infinite transmission line fed by a leaky mode, which is treated in [7]. The paper is structured as follows. In ...
... in terms of asymptotic leaky-wave ray contributions, with similarity and agreement with the description provided here. Another problem which has similar physical contents is that of a semi-infinite transmission line fed by a leaky mode, which is treated in [7]. The paper is structured as follows. In ...
J. Phys. Chem. B 106, 8271, 2002
... OH (n ) 0), for photoexcitation energies near the onset of the spectrum, whereas the dissociation of the |31-〉 state yields primarily OH (n ) 1), where n is the vibrational quantum number). SC-IVR methods originated more than 30 years ago as a way of describing quantum dynamics according to classica ...
... OH (n ) 0), for photoexcitation energies near the onset of the spectrum, whereas the dissociation of the |31-〉 state yields primarily OH (n ) 1), where n is the vibrational quantum number). SC-IVR methods originated more than 30 years ago as a way of describing quantum dynamics according to classica ...
POLYNOMIAL-TIME ALGORITHMS FOR PRIME FACTORIZATION
... This result was improved by Simon [1994], who gave a much simpler construction of an oracle problem which takes polynomial time on a quantum computer but requires exponential time on a classical computer. Indeed, while Bernstein and Vaziarni's problem appears contrived, Simon's problem looks quite n ...
... This result was improved by Simon [1994], who gave a much simpler construction of an oracle problem which takes polynomial time on a quantum computer but requires exponential time on a classical computer. Indeed, while Bernstein and Vaziarni's problem appears contrived, Simon's problem looks quite n ...
An information-theoretic perspective on the foundations of
... satisfying principles like isotropy and homogeniety of space-time [23] make special relativity a more friendly theory. Physicists have yet to find fundamental principles as physical that would describe QM. The weirdness of QM has been an area of study since the beginnings of quantum theory. Quantum ...
... satisfying principles like isotropy and homogeniety of space-time [23] make special relativity a more friendly theory. Physicists have yet to find fundamental principles as physical that would describe QM. The weirdness of QM has been an area of study since the beginnings of quantum theory. Quantum ...
7 Quantum Computing Applications of Genetic Programming
... Quantum computers are computational devices that use the dynamics of atomic-scale objects to store and manipulate information. Only a few, small-scale quantum computers have been built to date, but quantum computers can in principle outperform all possible classical computers in significant ways. Qu ...
... Quantum computers are computational devices that use the dynamics of atomic-scale objects to store and manipulate information. Only a few, small-scale quantum computers have been built to date, but quantum computers can in principle outperform all possible classical computers in significant ways. Qu ...
Department of Physics, Chemistry and Biology Master’s Thesis
... quantum models used in this work. It starts with the classical Hamiltonian studied in [11] and how we can quantize this. The quantum operators needed to write a quantum version of the classical Hamiltonian are presented. We know that there are different types of Bose-Hubbard models, but they share s ...
... quantum models used in this work. It starts with the classical Hamiltonian studied in [11] and how we can quantize this. The quantum operators needed to write a quantum version of the classical Hamiltonian are presented. We know that there are different types of Bose-Hubbard models, but they share s ...
Tree Search and Quantum Computation
... a constant branching factor b. This was mostly due to simplification reasons. However, a constant branching factor requirement is not feasible when considering potential applications of search algorithms. Since, at its essence, our system can be perceived as evaluating a superposition of all possibl ...
... a constant branching factor b. This was mostly due to simplification reasons. However, a constant branching factor requirement is not feasible when considering potential applications of search algorithms. Since, at its essence, our system can be perceived as evaluating a superposition of all possibl ...
Two-particle asynchronous quantum correlation: wavefunction
... mirror is represented as the black rectangle, moving to the right at speed V < v. At t = t1 = τ interference between the incident and reflected particle substates is shown as oscillations in its PDF while interference between the mirror substates which have and have not reflected the particle is rep ...
... mirror is represented as the black rectangle, moving to the right at speed V < v. At t = t1 = τ interference between the incident and reflected particle substates is shown as oscillations in its PDF while interference between the mirror substates which have and have not reflected the particle is rep ...
LIGO Magazine, issue 3, 9/2013 - LIGO Scientific Collaboration
... who would have thought? The last year has been exciting and fun, with many excellent contributions and feedback from you, the LSC members. Thank you! In this issue we bring you stories about the squeezing of light. During my first years in gravitational wave science signal, recycling was still new a ...
... who would have thought? The last year has been exciting and fun, with many excellent contributions and feedback from you, the LSC members. Thank you! In this issue we bring you stories about the squeezing of light. During my first years in gravitational wave science signal, recycling was still new a ...
The Emperor`s New Mind by Roger Penrose
... including the 1988 Wolf Prize for physics which he shared with Stephen Hawking for their joint contribution to our understanding of the universe. "Many mathematicians working in computer science propose that it will soon be possible to build computers capable of artificial intelligence, machines tha ...
... including the 1988 Wolf Prize for physics which he shared with Stephen Hawking for their joint contribution to our understanding of the universe. "Many mathematicians working in computer science propose that it will soon be possible to build computers capable of artificial intelligence, machines tha ...
Biological Autonomy - Chapman University Digital Commons
... back into the river, nature’s command is short: survive! This command does not inform the fish in terms of physical details and spatial coordinates what to do, such as to turn left or right. Organisms commonly have alternative means of performing the same function (Beckner 1969), therefore, they mus ...
... back into the river, nature’s command is short: survive! This command does not inform the fish in terms of physical details and spatial coordinates what to do, such as to turn left or right. Organisms commonly have alternative means of performing the same function (Beckner 1969), therefore, they mus ...
Bohr–Einstein debates
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered because of their importance to the philosophy of science. An account of the debates was written by Bohr in an article titled ""Discussions with Einsteinon Epistemological Problems in Atomic Physics"". Despite their differences of opinion regarding quantum mechanics, Bohr and Einstein had a mutual admiration that was to last the rest of their lives.The debates represent one of the highest points of scientific research in the first half of the twentieth century because it called attention to an element of quantum theory, quantum non-locality, which is absolutely central to our modern understanding of the physical world. The consensus view of professional physicists has been that Bohr proved victorious, and definitively established the fundamental probabilistic character of quantum measurement.