THE MANY CLASSICAL FACES OF QUANTUM STRUCTURES 1
... The mathematical formalism of quantum mechanics is open to interpretation. For example, the measurement problem, the uncertainty principle, the possibility of deterministic hidden variables, and the reality of the wave function, are all up for debate1. Classical mechanics shares none of those interp ...
... The mathematical formalism of quantum mechanics is open to interpretation. For example, the measurement problem, the uncertainty principle, the possibility of deterministic hidden variables, and the reality of the wave function, are all up for debate1. Classical mechanics shares none of those interp ...
Giovannini, D., Romero, J., Leach, J., Dudley, A, Forbes, A, and
... entanglement of high-dimensional states provides implementations of QKD that are more tolerant to eavesdropping and can improve the bit rate in other quantum communication protocols [23–28]. One of the advantages of OAM is the ability to access d-dimensional subspaces [29], for each of which we can ...
... entanglement of high-dimensional states provides implementations of QKD that are more tolerant to eavesdropping and can improve the bit rate in other quantum communication protocols [23–28]. One of the advantages of OAM is the ability to access d-dimensional subspaces [29], for each of which we can ...
Quantum Channel Construction with Circuit Quantum
... To implement a CPTP map with Kraus rank N , we need a quantum circuit with L = dlog2 N e rounds of operations. Each round consists of (1) initialization of the ancilla qubit, (2) joint unitary gate over the system and ancilla (conditional on the measurement outcomes from previous rounds), (3) QND re ...
... To implement a CPTP map with Kraus rank N , we need a quantum circuit with L = dlog2 N e rounds of operations. Each round consists of (1) initialization of the ancilla qubit, (2) joint unitary gate over the system and ancilla (conditional on the measurement outcomes from previous rounds), (3) QND re ...
The Veil of Avidya - This Quantum World
... suggests that the force at work in the world is an omnipotent force working under selfimposed constraints. If so, the relevant questions are: why, and to what extent, does this force subject itself to laws? And why to one particular set of laws rather than any other? These questions are discussed in ...
... suggests that the force at work in the world is an omnipotent force working under selfimposed constraints. If so, the relevant questions are: why, and to what extent, does this force subject itself to laws? And why to one particular set of laws rather than any other? These questions are discussed in ...
Overview of Quantum Computing
... The average outcome of a measurement repeated many times or ... The average outcome of a measurement performed on many copies of a system over a region of the Multiverse. ...
... The average outcome of a measurement repeated many times or ... The average outcome of a measurement performed on many copies of a system over a region of the Multiverse. ...
On the Study of Quantum Properties of Space-Time with
... Abstract The expectation that it should not be possible to gain experimental insight on the structure of space-time at Planckian distance scales has been recently challenged by several studies which have shown that there are a few classes of experiments with sensitivity suÆcient for setting signi c ...
... Abstract The expectation that it should not be possible to gain experimental insight on the structure of space-time at Planckian distance scales has been recently challenged by several studies which have shown that there are a few classes of experiments with sensitivity suÆcient for setting signi c ...
Quantum Channel Capacities (PDF Available)
... The foundation of quantum mechanics brought a lot of new observations, like entanglement and uncertainty which seem to be incompatible with our classical intuition, but if we use quantum mechanics as a resource for our purposes we can explore some useful and impressive phenomena. To do so is the goa ...
... The foundation of quantum mechanics brought a lot of new observations, like entanglement and uncertainty which seem to be incompatible with our classical intuition, but if we use quantum mechanics as a resource for our purposes we can explore some useful and impressive phenomena. To do so is the goa ...
Quantum cryptography
... •We call them particles in spite of the fact that some of their properties are totally unlike the properties of what we call particles in our ordinary classical world. For example, a quantum particle can go through two places at the same time and can interact with itself. Because of that quantum phy ...
... •We call them particles in spite of the fact that some of their properties are totally unlike the properties of what we call particles in our ordinary classical world. For example, a quantum particle can go through two places at the same time and can interact with itself. Because of that quantum phy ...
1 Introduction. Measurable and Nonmea
... In this paper it is supposed that the theory involves a minimal length. Within the scope of this supposition, for the case of a free particle, the notions of measurability and measurable quantities are used as a basis for a mathematical apparatus of a new theory that is a deformation of the conventi ...
... In this paper it is supposed that the theory involves a minimal length. Within the scope of this supposition, for the case of a free particle, the notions of measurability and measurable quantities are used as a basis for a mathematical apparatus of a new theory that is a deformation of the conventi ...
Attractive photons in a quantum nonlinear medium
... Ofer Firstenberg1*, Thibault Peyronel2*, Qi-Yu Liang2, Alexey V. Gorshkov3{, Mikhail D. Lukin1 & Vladan Vuletić2 ...
... Ofer Firstenberg1*, Thibault Peyronel2*, Qi-Yu Liang2, Alexey V. Gorshkov3{, Mikhail D. Lukin1 & Vladan Vuletić2 ...
local pdf - Quantum Optics and Spectroscopy
... this profile is due, with high probability, to at most a single infrared photon scattering on an open dipole transition. The uncertainty in the spectroscopic signal is determined by quantum projection noise24 in estimating the expectation values of the logic qubit state. The signal-to-noise ratio (SN ...
... this profile is due, with high probability, to at most a single infrared photon scattering on an open dipole transition. The uncertainty in the spectroscopic signal is determined by quantum projection noise24 in estimating the expectation values of the logic qubit state. The signal-to-noise ratio (SN ...
