
Quantum distributed computing - Technion
... be a k-input binary function. We are in a context where the k players each have one of the inputs to the function. The probabilistic communication complexity is the amount of bits that have to be broadcast by the players in order for player number one to be able to compute F with probability at leas ...
... be a k-input binary function. We are in a context where the k players each have one of the inputs to the function. The probabilistic communication complexity is the amount of bits that have to be broadcast by the players in order for player number one to be able to compute F with probability at leas ...
Fractional quantum Hall effect in optical lattices
... point of view of topological quantum computation 关11兴. In these schemes quantum states with fractional statistics can potentially perform fault-tolerant quantum computation. So far, there has been no direct experimental observation of fractional statistics although some signatures have been observed ...
... point of view of topological quantum computation 关11兴. In these schemes quantum states with fractional statistics can potentially perform fault-tolerant quantum computation. So far, there has been no direct experimental observation of fractional statistics although some signatures have been observed ...
The many-worlds interpretation of quantum - Philsci
... This hitherto unpublished 1990 paper presents my views on the “many-worlds,” or, as I prefer to call it, following Everett, the “relative state” interpretation of quantum mechanics. It was rejected by one journal in 1990, primarily on the (I think incorrect) grounds that it was too similar to the Al ...
... This hitherto unpublished 1990 paper presents my views on the “many-worlds,” or, as I prefer to call it, following Everett, the “relative state” interpretation of quantum mechanics. It was rejected by one journal in 1990, primarily on the (I think incorrect) grounds that it was too similar to the Al ...
Quantum error correction
... up the stage for paper A, but providing only the necessary set of the theory. I will probe a little deeper on some subtle assumptions and simplifications, which are underpinning the topic, but nevertheless are essential. Some unorthodox notions which are new, or stem from other parts of quantum opti ...
... up the stage for paper A, but providing only the necessary set of the theory. I will probe a little deeper on some subtle assumptions and simplifications, which are underpinning the topic, but nevertheless are essential. Some unorthodox notions which are new, or stem from other parts of quantum opti ...
Theory of quantum light emission from a strongly
... “off-resonant excitation of the cavity mode” and a “triple peak” during the strong coupling regime. Since these observations are unusual, it has been speculated that they indicate a clear deviation from a simple artificial atom model of the QD; this view has since been echoed by additional experimen ...
... “off-resonant excitation of the cavity mode” and a “triple peak” during the strong coupling regime. Since these observations are unusual, it has been speculated that they indicate a clear deviation from a simple artificial atom model of the QD; this view has since been echoed by additional experimen ...
Quantum Information Processing - LANL Research Library
... operations that are conditional on the state of another bit may also be used. An example is the conditional append operation: “If the kth bit is in the state , then append a bit.” The gates just introduced suffice for implementing arbitrary state transformations of a given bit sequence. Instruction ...
... operations that are conditional on the state of another bit may also be used. An example is the conditional append operation: “If the kth bit is in the state , then append a bit.” The gates just introduced suffice for implementing arbitrary state transformations of a given bit sequence. Instruction ...
61, 062310 (2000)
... identification. The next problem is how to realize these cloning and identifying transformations by physical means. The fundamental unit of quantum information transmission is the quantum bit 共qubit兲, i.e., a two-state quantum system, which is capable of existing in a superposition of Boolean states ...
... identification. The next problem is how to realize these cloning and identifying transformations by physical means. The fundamental unit of quantum information transmission is the quantum bit 共qubit兲, i.e., a two-state quantum system, which is capable of existing in a superposition of Boolean states ...