
Quantum Chaos and Quantum Computers
... nuclear. But now in the view of the amazing computer development all over the world it becomes clear that the future power will be related to ability to count as fast as possible. In Millennium I this ability was basically comparable with ¢nger counting, while at the end of Millennium II it made an ...
... nuclear. But now in the view of the amazing computer development all over the world it becomes clear that the future power will be related to ability to count as fast as possible. In Millennium I this ability was basically comparable with ¢nger counting, while at the end of Millennium II it made an ...
Word - The Open University
... mechanics. In cases where the probability distributions are independent of time, a stationary-state approach can be used. In other cases, where probabilities are timedependent and motion is really taking place, a wave-packet approach can be used. The two approaches are related but different. In many ...
... mechanics. In cases where the probability distributions are independent of time, a stationary-state approach can be used. In other cases, where probabilities are timedependent and motion is really taking place, a wave-packet approach can be used. The two approaches are related but different. In many ...
Why We Thought Linear Optics Sucks at Quantum Computing
... Schrödinger Picture: Feynman Paths HOM effect in two-photon coincidences ...
... Schrödinger Picture: Feynman Paths HOM effect in two-photon coincidences ...
PDF
... The dipole surface plasmon resonance of a single noble metal nanoparticle can be employed for a field localization and enhancement in the vicinity of the resonantly excited nanoparticle. For small nanoparticles (D << λ) the metal nanoparticle acts as an oscillating dipole. The field enhancement at t ...
... The dipole surface plasmon resonance of a single noble metal nanoparticle can be employed for a field localization and enhancement in the vicinity of the resonantly excited nanoparticle. For small nanoparticles (D << λ) the metal nanoparticle acts as an oscillating dipole. The field enhancement at t ...