NON-RELATIVISTIC QUANTUM MECHANICS - Philsci
... used in a way that suggests that some vectors are ‘in superpositions’ and others are not. Relative to a given basis, this distinction makes sense, but otherwise it does not. Every vector is a superposition for some choices of basis.) Notice that v is not an eigenstate of F , and assigns non-trivial ...
... used in a way that suggests that some vectors are ‘in superpositions’ and others are not. Relative to a given basis, this distinction makes sense, but otherwise it does not. Every vector is a superposition for some choices of basis.) Notice that v is not an eigenstate of F , and assigns non-trivial ...
computing
... so-called working bits which are set to zero at the input and return to zero at the output but which can take non-zero values during the computation. What makes quantum function evaluation really interesting is its action on a superposition of different inputs x, for example, X X |x, 0i 7→ |x, f (x) ...
... so-called working bits which are set to zero at the input and return to zero at the output but which can take non-zero values during the computation. What makes quantum function evaluation really interesting is its action on a superposition of different inputs x, for example, X X |x, 0i 7→ |x, f (x) ...
Quantum Theory and Relativity
... a mathematical foundation to an incomplete picture of nature? Our position on this question is that past success in understanding physics has always been partial and within limited domains. But within these domains one has pursued theories to their logical conclusion. Insight into broad arenas of ph ...
... a mathematical foundation to an incomplete picture of nature? Our position on this question is that past success in understanding physics has always been partial and within limited domains. But within these domains one has pursued theories to their logical conclusion. Insight into broad arenas of ph ...
The Status of our Ordinary Three Dimensions in a Quantum Universe 1
... being that Schrödinger evolution is completely deterministic, while the collapse postulate is an indeterministic law. In other words, given the state of the wavefunction at one time, t 1 , the Schrödinger equation specifies a unique state for the system at any later time, t 2 . This is not so if t ...
... being that Schrödinger evolution is completely deterministic, while the collapse postulate is an indeterministic law. In other words, given the state of the wavefunction at one time, t 1 , the Schrödinger equation specifies a unique state for the system at any later time, t 2 . This is not so if t ...
A Chemical Approach to Molecular Spin Qubits: Decoherence and
... Section a: Extended Synopsis of the scientific proposal (max. 5 pages) All electronics “runs on quantum mechanics”, from semiconductors and lasers to giant-magnetoresistancebased hard drives and memories. A number of spectacular technologies even depend very explicitly of quantum effects, from medic ...
... Section a: Extended Synopsis of the scientific proposal (max. 5 pages) All electronics “runs on quantum mechanics”, from semiconductors and lasers to giant-magnetoresistancebased hard drives and memories. A number of spectacular technologies even depend very explicitly of quantum effects, from medic ...
Chu Spaces: Automata with Quantum Aspects
... In computer science Chu spaces as an automata-theoretic abstraction of quantum mechanics could well serve as a bridge between the familiar world of automata and the conceptually remote world of quantum mechanics. Such a bridge may ease the transitions of computer architecture to quantum devices, and ...
... In computer science Chu spaces as an automata-theoretic abstraction of quantum mechanics could well serve as a bridge between the familiar world of automata and the conceptually remote world of quantum mechanics. Such a bridge may ease the transitions of computer architecture to quantum devices, and ...
A conformal field theory approach to the fractional quantum Hall
... theoretical states can be compared to the states measured in experiments and they can also be analyzed using numerical methods. In many cases, these idealized wave functions approximate the real wave functions to a high degree. Multiple states have been proposed to describe the different FQHE states ...
... theoretical states can be compared to the states measured in experiments and they can also be analyzed using numerical methods. In many cases, these idealized wave functions approximate the real wave functions to a high degree. Multiple states have been proposed to describe the different FQHE states ...
The Quantum Mechanical Frame of Reference Andrew Soltau
... as a singular specific process, it is not clear how such a phenomenon can take place as such. It seems clear that he considers that this does take place, as he concludes: We have now completed the abstract treatment of measurement and observation, with the deduction that the statistical prediction ...
... as a singular specific process, it is not clear how such a phenomenon can take place as such. It seems clear that he considers that this does take place, as he concludes: We have now completed the abstract treatment of measurement and observation, with the deduction that the statistical prediction ...
Quantum Measurements with Dynamically Bistable Systems
... The dynamic bistability of the oscillator is advantageous for measurements. The idea is to make the oscillator switch between the states depending on the value of the parameter to be measured. Switching leads to a strong change in the system that can be easily detected, leading to a high signal-to-n ...
... The dynamic bistability of the oscillator is advantageous for measurements. The idea is to make the oscillator switch between the states depending on the value of the parameter to be measured. Switching leads to a strong change in the system that can be easily detected, leading to a high signal-to-n ...
What General Chemistry Students Know (and Don`t Know) About
... P: Mm-hmm. When you say where we would find it, what do you mean? I mean, is there a difficulty with finding the electron? S: Again, to measure the exact location of an electron, I would imagine it would require something like stopping it from moving, because they're moving at extremely high speeds ...
... P: Mm-hmm. When you say where we would find it, what do you mean? I mean, is there a difficulty with finding the electron? S: Again, to measure the exact location of an electron, I would imagine it would require something like stopping it from moving, because they're moving at extremely high speeds ...
What General Chemistry Students Know
... P: Mm-hmm. When you say where we would find it, what do you mean? I mean, is there a difficulty with finding the electron? S: Again, to measure the exact location of an electron, I would imagine it would require something like stopping it from moving, because they're moving at extremely high speeds ...
... P: Mm-hmm. When you say where we would find it, what do you mean? I mean, is there a difficulty with finding the electron? S: Again, to measure the exact location of an electron, I would imagine it would require something like stopping it from moving, because they're moving at extremely high speeds ...
QUANTUM ERROR CORRECTING CODES FROM THE
... The stabilizer formalism for QEC [5, 6] gives a constructive framework to find correctable codes for error models of “Pauli type”. While there are other successful techniques that can be applied in special cases (for instance, see [7–14]), the landscape of general strategies to find codes for other ...
... The stabilizer formalism for QEC [5, 6] gives a constructive framework to find correctable codes for error models of “Pauli type”. While there are other successful techniques that can be applied in special cases (for instance, see [7–14]), the landscape of general strategies to find codes for other ...