computing
... The first one can represent, for example, the number 3 (in binary) and the second one the number 7. In general three physical bits can be prepared in 23 = 8 different configurations that can represent, for example, the integers from 0 to 7. However, a register composed of three classical bits can st ...
... The first one can represent, for example, the number 3 (in binary) and the second one the number 7. In general three physical bits can be prepared in 23 = 8 different configurations that can represent, for example, the integers from 0 to 7. However, a register composed of three classical bits can st ...
Interpreting Spontaneous Collapse Theories - Philsci
... density distribution in ordinary three-dimensional space. The mass density function M is defined for a point r in three-dimensional space as the expectation value of mass density at that point. In other words, since the wavefunction is a distribution over particle configurations, and each particle c ...
... density distribution in ordinary three-dimensional space. The mass density function M is defined for a point r in three-dimensional space as the expectation value of mass density at that point. In other words, since the wavefunction is a distribution over particle configurations, and each particle c ...
Heralded atomic-ensemble quantum memory for photon polarization states
... Published 31 July 2009 Online at stacks.iop.org/PhysScr/T135/014010 Abstract We describe the mapping of quantum states between single photons and an atomic ensemble. In particular, we demonstrate a heralded quantum memory based on the mapping of a photon polarization state onto a single collective-s ...
... Published 31 July 2009 Online at stacks.iop.org/PhysScr/T135/014010 Abstract We describe the mapping of quantum states between single photons and an atomic ensemble. In particular, we demonstrate a heralded quantum memory based on the mapping of a photon polarization state onto a single collective-s ...
Quantum telescopes
... fundamental scientific developments brought about by quantum mechanics, would be very different. It is now possible to consider their design, in concept at least. While one aim of this article is to entertain the reader, the main purpose is to explore the possible future evolution of telescopes. ...
... fundamental scientific developments brought about by quantum mechanics, would be very different. It is now possible to consider their design, in concept at least. While one aim of this article is to entertain the reader, the main purpose is to explore the possible future evolution of telescopes. ...
On Participatory Realism
... began with a big bang. The laws must have come into being. Therefore they could not have been always a hundred percent accurate. That means that they are derivative, not primary. Also derivative, also not primary is the statistical law of distribution of the molecules of a dilute gas between two int ...
... began with a big bang. The laws must have come into being. Therefore they could not have been always a hundred percent accurate. That means that they are derivative, not primary. Also derivative, also not primary is the statistical law of distribution of the molecules of a dilute gas between two int ...
Shamsul Kaonain
... Einstein's theory of relativity. The resolution of this problem turns out to hinge on whether it is possible to clone an unknown quantum state, that is, construct a copy of a quantum state. Cloning turns out not to be possible in general in quantum mechanics. This no cloning theorem , discovered in ...
... Einstein's theory of relativity. The resolution of this problem turns out to hinge on whether it is possible to clone an unknown quantum state, that is, construct a copy of a quantum state. Cloning turns out not to be possible in general in quantum mechanics. This no cloning theorem , discovered in ...
