
quantum computer graphics algorithms
... 2009; DiCarlo et al., 2009). These efforts are fueled by an important property: while conventional computers use a binary representation of information that allows the computing power to scale at most linearly with respect to the used resources, quantum computing exploits quantum phenomena which can ...
... 2009; DiCarlo et al., 2009). These efforts are fueled by an important property: while conventional computers use a binary representation of information that allows the computing power to scale at most linearly with respect to the used resources, quantum computing exploits quantum phenomena which can ...
General randomness amplification with non
... In this work, an event is random if it cannot be perfectly predicted. An event is perfectly random, if all the alternatives have an equal chance of occurring. A family of events are said to be truly random, if in the limit of the indexing parameters, the events tend to be perfectly random. These not ...
... In this work, an event is random if it cannot be perfectly predicted. An event is perfectly random, if all the alternatives have an equal chance of occurring. A family of events are said to be truly random, if in the limit of the indexing parameters, the events tend to be perfectly random. These not ...
Randomness in (Quantum) Information Processing
... The main focus of this thesis are applications of randomness in classical and quantum information processing, especially in cryptography. The accent is on production of high-quality randomness (randomness extraction), efficient usage of randomness (design of applications consuming as little randomne ...
... The main focus of this thesis are applications of randomness in classical and quantum information processing, especially in cryptography. The accent is on production of high-quality randomness (randomness extraction), efficient usage of randomness (design of applications consuming as little randomne ...
3. Generation of the Quantum Fault Table
... quantum test theory presented here. Two new types of faults having no parallel in other types of circuit technology are presented, named and formalized in this work. We introduce and define the quantum fault table, and categorize its entries; a method is presented illustrating how to construct a cla ...
... quantum test theory presented here. Two new types of faults having no parallel in other types of circuit technology are presented, named and formalized in this work. We introduce and define the quantum fault table, and categorize its entries; a method is presented illustrating how to construct a cla ...
Quantum Computer Compilers - Computer Science, Columbia
... Particular braids correspond to particular computations. 3. State can be initialized by “pulling” pairs from vacuum State can be measured by trying to return pairs to vacuum 4. ( Variants of these schemes 2,3 are possible ) ...
... Particular braids correspond to particular computations. 3. State can be initialized by “pulling” pairs from vacuum State can be measured by trying to return pairs to vacuum 4. ( Variants of these schemes 2,3 are possible ) ...
Quantum computing and mathematical research
... How to control the (initial) quantum states? How to create the appropriate environment for the quantum mechanical system to evolve without observing? How to “fight” decoherence (the interaction of the system and the external environment)? How to use the phenomena of superposition and entanglement ef ...
... How to control the (initial) quantum states? How to create the appropriate environment for the quantum mechanical system to evolve without observing? How to “fight” decoherence (the interaction of the system and the external environment)? How to use the phenomena of superposition and entanglement ef ...
How Quantum Computers Fail - Einstein Institute of Mathematics
... The postulate of noise: Quantum systems are inherently noisy. The postulate of noise and the nature of decoherence are intimately related to questions about the nature and origins of probability, uncertainty, and approximations in physics. The concern regarding noise was put forward in the mid-90s b ...
... The postulate of noise: Quantum systems are inherently noisy. The postulate of noise and the nature of decoherence are intimately related to questions about the nature and origins of probability, uncertainty, and approximations in physics. The concern regarding noise was put forward in the mid-90s b ...
AntalyaQuantumComputingTutorial
... both the position and the momentum of a quantum particle with arbitrary precision. In his Nobel prize lecture on December 11, 1954 Max Born says about this fundamental principle of Quantum Mechanics : ``... It shows that not only the determinism of classical physics must be abandoned, but also the n ...
... both the position and the momentum of a quantum particle with arbitrary precision. In his Nobel prize lecture on December 11, 1954 Max Born says about this fundamental principle of Quantum Mechanics : ``... It shows that not only the determinism of classical physics must be abandoned, but also the n ...
Electron Attraction Mediated by Coulomb Repulsion
... make this electron attractive to other electrons. c, Implementation of the two components, ‘polarizer’ and ‘system’, that comprise the fundamental building block. These are fabricated as two separate devices, each having a pristine nanotube (NT) assembled on contacts (yellow) and suspended above an ...
... make this electron attractive to other electrons. c, Implementation of the two components, ‘polarizer’ and ‘system’, that comprise the fundamental building block. These are fabricated as two separate devices, each having a pristine nanotube (NT) assembled on contacts (yellow) and suspended above an ...
IEEE Transactions on Magnetics
... superposition of coherent quantum states [3]. What this means is that microtubules can be used to extract information from many different signals, called wave-functions. For example, we can think of a MT as some type of measuring device similar to a measuring ruler. When a stick, in this case the wa ...
... superposition of coherent quantum states [3]. What this means is that microtubules can be used to extract information from many different signals, called wave-functions. For example, we can think of a MT as some type of measuring device similar to a measuring ruler. When a stick, in this case the wa ...
Measurement-based and Universal Blind Quantum Computation
... Having obtained the rigourous mathematical model underlying MBQC, we then present how this model suggests new techniques for designing quantum protocols. We present a protocol, called Universal Blind Quantum Computation (UBQC) which allows a client to have a server carry out a quantum computation fo ...
... Having obtained the rigourous mathematical model underlying MBQC, we then present how this model suggests new techniques for designing quantum protocols. We present a protocol, called Universal Blind Quantum Computation (UBQC) which allows a client to have a server carry out a quantum computation fo ...
On realism and quantum mechanics
... then photon ν1 is (operationally) linearly polarized along the direction of the axis of A. Contemporaneously, photon ν2 assumes the same polarization. (QM1 ) D If photon ν1 passes through A, then photon ν2 will pass through B with probability cos2 θ, where θ is the angle between the axis of the two ...
... then photon ν1 is (operationally) linearly polarized along the direction of the axis of A. Contemporaneously, photon ν2 assumes the same polarization. (QM1 ) D If photon ν1 passes through A, then photon ν2 will pass through B with probability cos2 θ, where θ is the angle between the axis of the two ...