
Earth-Moon Lagrangian points as a testbed for general relativity and
... to establish the most accurate classical counterpart of the putative quantum framework that we have set up. By taking seriously into account the important role played by the Einstein theory within this scheme, in the last part of this paper we describe a new quantum corrected regime where the underl ...
... to establish the most accurate classical counterpart of the putative quantum framework that we have set up. By taking seriously into account the important role played by the Einstein theory within this scheme, in the last part of this paper we describe a new quantum corrected regime where the underl ...
indistinguishability - University of Oxford
... to Planck, it was needed to interpolate between the high frequency (Wien law) limit of thermal radiative equilibrium, and the low frequency (Rayleigh-Jeans) limit. The latter, of course, also required the quantization of energy, and the introduction of Planck’s constant: the birth of quantum mechani ...
... to Planck, it was needed to interpolate between the high frequency (Wien law) limit of thermal radiative equilibrium, and the low frequency (Rayleigh-Jeans) limit. The latter, of course, also required the quantization of energy, and the introduction of Planck’s constant: the birth of quantum mechani ...
A Chemical Approach to Molecular Spin Qubits: Decoherence and
... storage times (at room-temperature!) of the order of 1 milisecond, 1 have shown the potential of systems in the domain of Chemistry and Materials Science. In the last few years, the study of quantum effects in a chemical context is also becoming a hot topic for biophysicists, as some natural biologi ...
... storage times (at room-temperature!) of the order of 1 milisecond, 1 have shown the potential of systems in the domain of Chemistry and Materials Science. In the last few years, the study of quantum effects in a chemical context is also becoming a hot topic for biophysicists, as some natural biologi ...
D.5 Quantum error correction - UTK-EECS
... On classical computers, bits are represented by very large numbers of particles (but that is changing). On quantum computers, qubits are represented by atomic-scale states or objects (photons, nuclear spins, electrons, trapped ions, etc.). They are very likely to become entangled with computationall ...
... On classical computers, bits are represented by very large numbers of particles (but that is changing). On quantum computers, qubits are represented by atomic-scale states or objects (photons, nuclear spins, electrons, trapped ions, etc.). They are very likely to become entangled with computationall ...
Fractional quantum Hall effect in graphene
... The electrons in most of the conductors can be described by non-relativistic quantum mechanics but the electrons in graphene behave as massless relativistic particles, called Dirac fermions, though their speed is given by the Fermi velocity. The relativistic nature of the energy dispersion relation ...
... The electrons in most of the conductors can be described by non-relativistic quantum mechanics but the electrons in graphene behave as massless relativistic particles, called Dirac fermions, though their speed is given by the Fermi velocity. The relativistic nature of the energy dispersion relation ...
... Optomechanics becomes our gate to the macroscopic quantum world [1]. Recently, experimentalists have successfully cooled the macroscopic oscillator to its ground state using optomechanical interaction [2, 3] and unveiled the hitherto elusive quantum radiation pressure shot noise [4]. These remarkabl ...