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Topic 13: Quantum and nuclear physics
... Back in the very early 1900s physicists thought that within a few years everything having to do with physics would be discovered and the “book of physics” would be complete. This “book of physics” has come to be known as classical physics and consists of particles and mechanics on the one hand, an ...
... Back in the very early 1900s physicists thought that within a few years everything having to do with physics would be discovered and the “book of physics” would be complete. This “book of physics” has come to be known as classical physics and consists of particles and mechanics on the one hand, an ...
On the correspondence principle
... SQUID rings, as with other superconducting devices, are unusual in so far as it is quite straightforward to perform experiments on them as a single macroscopic quantum object. Furthermore, they exhibit well-known and understood semiclassical behaviour. Hence, as individual trajectories are accessibl ...
... SQUID rings, as with other superconducting devices, are unusual in so far as it is quite straightforward to perform experiments on them as a single macroscopic quantum object. Furthermore, they exhibit well-known and understood semiclassical behaviour. Hence, as individual trajectories are accessibl ...
Document
... are based on second-order AC Stark shifts of an electronic atomic level, which is proportional to the light intensity varying in space. For light in the far field, i.e. for optical trapping far away from surfaces, this spatial resolution will thus be given essentially by the wavelength of the light. ...
... are based on second-order AC Stark shifts of an electronic atomic level, which is proportional to the light intensity varying in space. For light in the far field, i.e. for optical trapping far away from surfaces, this spatial resolution will thus be given essentially by the wavelength of the light. ...
Surrey seminar on CQP - School of Computing Science
... and now measuring the first qubit gives us the desired information about f , and we only used the quantum black box once. Quantum parallelism was used to calculate f(0) and f(1) ; a global property of f ended up being encoded in a single place so that it could be extracted by a measurement. Developi ...
... and now measuring the first qubit gives us the desired information about f , and we only used the quantum black box once. Quantum parallelism was used to calculate f(0) and f(1) ; a global property of f ended up being encoded in a single place so that it could be extracted by a measurement. Developi ...
Rewriting measurement-based quantum computations with
... We present the rules for the “green” subsystem; to obtain the complete set of rules exchange red and green in the rules shown above. Fig. 2. Rewrite rules for system R ...
... We present the rules for the “green” subsystem; to obtain the complete set of rules exchange red and green in the rules shown above. Fig. 2. Rewrite rules for system R ...
Quantum HPC Sweden
... present extensive numerical simulations which provide evidence that this algorithm can prepare the quantum PageRank state in a time which, on average, scales polylogarithmically in the number of web pages. We argue that the main topological feature of the underlying web graph allowing for such a sca ...
... present extensive numerical simulations which provide evidence that this algorithm can prepare the quantum PageRank state in a time which, on average, scales polylogarithmically in the number of web pages. We argue that the main topological feature of the underlying web graph allowing for such a sca ...
Quantum Computing Applications
... Notes on this algorithm The algorithm (approximately) produces a state |xi such that we can extract some information from |xi. Is this useful? We could use this to e.g. determine whether two sets of linear equations have (approximately) the same solution – not clear how to do this classically. Achi ...
... Notes on this algorithm The algorithm (approximately) produces a state |xi such that we can extract some information from |xi. Is this useful? We could use this to e.g. determine whether two sets of linear equations have (approximately) the same solution – not clear how to do this classically. Achi ...
Individual Particles, Properties and Quantum - Philsci
... explanation of the fact that permutations are statistically irrelevant in the quantum domain can be found which is compatible with an ontology of individuals (this is all that the arguments just considered aim to show), the question remains of why non-symmetric states are excluded.14 A customary mov ...
... explanation of the fact that permutations are statistically irrelevant in the quantum domain can be found which is compatible with an ontology of individuals (this is all that the arguments just considered aim to show), the question remains of why non-symmetric states are excluded.14 A customary mov ...
Quantum Computational Complexity in Curved Spacetime
... spin-based qubits in a non-trivial manner. This is a critical fact because spin-based qubits in a quantum computer will clearly interact with Earth’s gravitational field and their states will therefore change with time even if the computer is in the idle state. In other words, qubit-encoded quantum ...
... spin-based qubits in a non-trivial manner. This is a critical fact because spin-based qubits in a quantum computer will clearly interact with Earth’s gravitational field and their states will therefore change with time even if the computer is in the idle state. In other words, qubit-encoded quantum ...
Strongly correlated phenomena in cavity QED
... managed to overcome the previous difficulty by using a quantum trick: • Suppose there are only two witnesses { 1 , 2 } acceptance probability bigger than 2/3 (all other having acceptance prob. < 1/3) ...
... managed to overcome the previous difficulty by using a quantum trick: • Suppose there are only two witnesses { 1 , 2 } acceptance probability bigger than 2/3 (all other having acceptance prob. < 1/3) ...
SEGUNDO WORKSHOP INFORMACIÌN CUÊNTICA EN ESPAÑA
... them selectively. Laser cooled atomic gases are currently one of the best systems for QM applications, but so far temporal multiplexing with quantum information has not been achieved in these systems. In this contribution, we show a significant step towards achieving this goal. Our experiment is bas ...
... them selectively. Laser cooled atomic gases are currently one of the best systems for QM applications, but so far temporal multiplexing with quantum information has not been achieved in these systems. In this contribution, we show a significant step towards achieving this goal. Our experiment is bas ...
PPT - Fernando Brandao
... SDPs/LPs? Output: X Linear Programming: case Naturalspecial question. But unexplored so far Many applications (combinatorial optimization, operational research, ....) Natural in quantum (density matrices) Algorithms ...
... SDPs/LPs? Output: X Linear Programming: case Naturalspecial question. But unexplored so far Many applications (combinatorial optimization, operational research, ....) Natural in quantum (density matrices) Algorithms ...
Quantum Computer - Physics, Computer Science and Engineering
... P. Shor (AT&T) was wanting to demonstrate that a quantum computer could be used to solve a real problem, as opposed to the contrived problems demonstrated up to that time (mid 1990s). Shor: if you can relate the (real) problem of finding the factors of a large composite integer to that of finding th ...
... P. Shor (AT&T) was wanting to demonstrate that a quantum computer could be used to solve a real problem, as opposed to the contrived problems demonstrated up to that time (mid 1990s). Shor: if you can relate the (real) problem of finding the factors of a large composite integer to that of finding th ...
Quantum Physics and NLP
... wave. Yet this statement also attributes reality to something that is unobservable. (?? p. 163). The wave function should not be interpreted as a physical wave; it is a mathematical construction, which we use to predict the probabilities of possible experimental outcomes. Just how big does an object ...
... wave. Yet this statement also attributes reality to something that is unobservable. (?? p. 163). The wave function should not be interpreted as a physical wave; it is a mathematical construction, which we use to predict the probabilities of possible experimental outcomes. Just how big does an object ...