Quantum coherent biomolecular energy transfer with spatially
... Quantum coherent biomolecular energy transfer with spatially correlated fluctuations 4 transfer processes. The coupling of two chromophore pairs to the common slowly fluctuating modes even allows to entangle two excitonic pairs over surprisingly long times even at room temperature [40]. However, wh ...
... Quantum coherent biomolecular energy transfer with spatially correlated fluctuations 4 transfer processes. The coupling of two chromophore pairs to the common slowly fluctuating modes even allows to entangle two excitonic pairs over surprisingly long times even at room temperature [40]. However, wh ...
Direct and Indirect Couplings in Coherent
... information flow is called indirect coupling, while the bidirectional coupling is called direct coupling. Several interesting coherent control schemes for quantum systems have been proposed in the literature. All-optical (indirect and direct) versus electromechanical measurement feedback schemes are ...
... information flow is called indirect coupling, while the bidirectional coupling is called direct coupling. Several interesting coherent control schemes for quantum systems have been proposed in the literature. All-optical (indirect and direct) versus electromechanical measurement feedback schemes are ...
Polynomial-Time Algorithms for Prime Factorization and Discrete
... computers to solve large problems: time (computation steps) and space (memory). There are more resources pertinent to analog computation; some proposed analog machines that seem able to solve NP-complete problems in polynomial time have required the machining of exponentially precise parts, or an ex ...
... computers to solve large problems: time (computation steps) and space (memory). There are more resources pertinent to analog computation; some proposed analog machines that seem able to solve NP-complete problems in polynomial time have required the machining of exponentially precise parts, or an ex ...
The UNBELIEVABLE similarities between Sean Carroll`s idea (2016
... “interactions” which “determine” the “epistemologically different entities”! Carroll continues with this paragraph: “We find it natural to use a vocabulary of ‘causes’ and‚ reasons why’ things happen, but those ideas aren’t part of how nature works at its deepest levels. They are emergent phenomena, ...
... “interactions” which “determine” the “epistemologically different entities”! Carroll continues with this paragraph: “We find it natural to use a vocabulary of ‘causes’ and‚ reasons why’ things happen, but those ideas aren’t part of how nature works at its deepest levels. They are emergent phenomena, ...
Title Visible to near infrared conversion in Ce3+-Yb3+ Co
... 共LEDs兲, displays, and so on. Recently, they also have attracted a great interest for photovoltaic applications to improve solar cell efficiency by modifying solar spectrum.1 Figure 1 shows the solar spectrum and the spectral response of crystalline silicon solar cell. Crystal silicon 共c-Si兲 solar ce ...
... 共LEDs兲, displays, and so on. Recently, they also have attracted a great interest for photovoltaic applications to improve solar cell efficiency by modifying solar spectrum.1 Figure 1 shows the solar spectrum and the spectral response of crystalline silicon solar cell. Crystal silicon 共c-Si兲 solar ce ...
Electron and hole wave functions in self
... 兩 具 e 兩 h 典 兩 , which takes a value of 0.854 for this ring, compared with a value much closer to 1 for a quantum dot of similar dimensions. The piezoelectric-induced deepening of the electron and hole potential energy wells also increases the ground-state confinement energies measured relative t ...
... 兩 具 e 兩 h 典 兩 , which takes a value of 0.854 for this ring, compared with a value much closer to 1 for a quantum dot of similar dimensions. The piezoelectric-induced deepening of the electron and hole potential energy wells also increases the ground-state confinement energies measured relative t ...
Toward Quantum Computational Agents.
... technologies such as that of neighbouring quantum dots implanted in regions of silicon based semiconductor on the nanometer scale [27]. As things are now, they work for up to several tens of qubits. Whether large-scale fault-tolerant and networked quantum computers with millions of qubits will ever ...
... technologies such as that of neighbouring quantum dots implanted in regions of silicon based semiconductor on the nanometer scale [27]. As things are now, they work for up to several tens of qubits. Whether large-scale fault-tolerant and networked quantum computers with millions of qubits will ever ...
Rate of energy absorption for a driven chaotic cavity
... class has special properties. Note that translations and rotations are also volume preserving, in which case the associated time-dependent deformations can be described as ‘shaking’ the cavity. What is the rate at which the ‘gas’ inside the cavity is heated up? The answer depends on the shape of the ...
... class has special properties. Note that translations and rotations are also volume preserving, in which case the associated time-dependent deformations can be described as ‘shaking’ the cavity. What is the rate at which the ‘gas’ inside the cavity is heated up? The answer depends on the shape of the ...
Quantum Thermodynamics - Open Research Exeter
... in general above Landauer’s bound and only converges to it for infinite-sized reservoirs. Probabilistic erasure is considered in [50] and the tradeoff between the probability of erasure and minimal heat dissipation is demonstrated. In the simplest case the erasure protocol achieving the Landauer bou ...
... in general above Landauer’s bound and only converges to it for infinite-sized reservoirs. Probabilistic erasure is considered in [50] and the tradeoff between the probability of erasure and minimal heat dissipation is demonstrated. In the simplest case the erasure protocol achieving the Landauer bou ...
Universitat Autonoma de Barcelona Facultat de Ciencies, Departament de F sica
... cold atoms, solid state systems, trapped ions, or quantum dots. In these systems, quantum information is encoded, for instance, in the internal energy, in the vibrational states, in the position, in the angular momentum or in the spin state. On the other hand, in quantum communication, photons are t ...
... cold atoms, solid state systems, trapped ions, or quantum dots. In these systems, quantum information is encoded, for instance, in the internal energy, in the vibrational states, in the position, in the angular momentum or in the spin state. On the other hand, in quantum communication, photons are t ...
Why We Thought Linear Optics Sucks at Quantum Computing
... approach to the result. If the authors … bolster their evidence … the manuscript might be suitable for publication in Physical Review A. ...
... approach to the result. If the authors … bolster their evidence … the manuscript might be suitable for publication in Physical Review A. ...
An experimental implementation of oblivious transfer in the noisy
... channel is available and no further restrictions are placed on an adversary7–9, two-party protocols are so pivotal to modern cryptography that we are required to explore scenarios that place realistic restrictions on an adversary, which allow provable security to be restored in important real-world ...
... channel is available and no further restrictions are placed on an adversary7–9, two-party protocols are so pivotal to modern cryptography that we are required to explore scenarios that place realistic restrictions on an adversary, which allow provable security to be restored in important real-world ...
Bohr–Einstein debates
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered because of their importance to the philosophy of science. An account of the debates was written by Bohr in an article titled ""Discussions with Einsteinon Epistemological Problems in Atomic Physics"". Despite their differences of opinion regarding quantum mechanics, Bohr and Einstein had a mutual admiration that was to last the rest of their lives.The debates represent one of the highest points of scientific research in the first half of the twentieth century because it called attention to an element of quantum theory, quantum non-locality, which is absolutely central to our modern understanding of the physical world. The consensus view of professional physicists has been that Bohr proved victorious, and definitively established the fundamental probabilistic character of quantum measurement.