A quantum gas with tunable interactions in an optical lattice
... interactions are minimized is determined to a high precision. With the atom-atom interactions minimized, more than 20000 Bloch oscillations can be followed. The strong suppression of atom-atom interactions has an additional interest for atom interferometry. A BEC combines high brightness with narrow ...
... interactions are minimized is determined to a high precision. With the atom-atom interactions minimized, more than 20000 Bloch oscillations can be followed. The strong suppression of atom-atom interactions has an additional interest for atom interferometry. A BEC combines high brightness with narrow ...
- Philsci
... partition according to the measurements’ outcomes, in such a way that by the end of stage 4 their spins get correlated to their positions. The coupling between the spin and position is brought about by ‘opening’ the boxes and sending the particles either to the right, if the z-spin is up, or to the ...
... partition according to the measurements’ outcomes, in such a way that by the end of stage 4 their spins get correlated to their positions. The coupling between the spin and position is brought about by ‘opening’ the boxes and sending the particles either to the right, if the z-spin is up, or to the ...
Quantum Computing
... 3.The DARPA Quantum network, a 10-node quantum key distribution network, has been running since 2004 in Massachusetts, USA. 4.The world's first computer network protected by quantum key distribution was implemented in October 2008, at a scientific conference in Vienna. SECOQC (Secure Communication B ...
... 3.The DARPA Quantum network, a 10-node quantum key distribution network, has been running since 2004 in Massachusetts, USA. 4.The world's first computer network protected by quantum key distribution was implemented in October 2008, at a scientific conference in Vienna. SECOQC (Secure Communication B ...
Relativistic Effects in Atomic Spectra
... The history of physics has shown an interesting progress of the comprehension of manyparticle systems: in classical mechanics, the three-body problem has been known not being solvable generally. In electrodynamics, also the two-body case has become unsolvable. When quantum mechanics was emerging, ne ...
... The history of physics has shown an interesting progress of the comprehension of manyparticle systems: in classical mechanics, the three-body problem has been known not being solvable generally. In electrodynamics, also the two-body case has become unsolvable. When quantum mechanics was emerging, ne ...
Phase Transitions - Helmut Katzgraber
... method in one dimension and non-zero external magnetic field, some ideas of the Onsager solution for the two-dimensional case with zero external magnetic field and the mean-field theory for arbitrary dimension and non-zero external magnetic field. Symmetry and ergodicity breaking are introduced and ...
... method in one dimension and non-zero external magnetic field, some ideas of the Onsager solution for the two-dimensional case with zero external magnetic field and the mean-field theory for arbitrary dimension and non-zero external magnetic field. Symmetry and ergodicity breaking are introduced and ...
StMalloQuantumComputing
... The laws of quantum mechanics differ radically from the laws of classical physics. The unit of information, the qubit can exist as a 0, or 1, or, simultaneously, as both 0 and 1. ...
... The laws of quantum mechanics differ radically from the laws of classical physics. The unit of information, the qubit can exist as a 0, or 1, or, simultaneously, as both 0 and 1. ...
File - Physics Rocks
... Spectroscopy • We can study light emitted and absorbed by individual atoms by applying a voltage to low-pressure gas, causing the gas to glow. • The emitted light contains only certain discrete, individual wavelengths. Such a spectrum is called a discrete spectrum. ...
... Spectroscopy • We can study light emitted and absorbed by individual atoms by applying a voltage to low-pressure gas, causing the gas to glow. • The emitted light contains only certain discrete, individual wavelengths. Such a spectrum is called a discrete spectrum. ...
Boundless Study Slides
... • wave equation An important second-order linear partial differential equation for the description of waves such as sound waves, light waves, and water waves. • wave speed The absolute value of the velocity at which the phase of any one frequency component of the wave travels. • waveform The shape o ...
... • wave equation An important second-order linear partial differential equation for the description of waves such as sound waves, light waves, and water waves. • wave speed The absolute value of the velocity at which the phase of any one frequency component of the wave travels. • waveform The shape o ...
5539-1.pdf
... where σ = 12 P + b− is the (boost invariant) longitudinal distance on the light-cone and the FTs are performed at a fixed invariant momentum transfer squared −t . We have imposed cutoffs at = 1 = 2 /2 = 0.001 for the numerical calculation. A detailed discussion of the cutoff scheme will be given ...
... where σ = 12 P + b− is the (boost invariant) longitudinal distance on the light-cone and the FTs are performed at a fixed invariant momentum transfer squared −t . We have imposed cutoffs at = 1 = 2 /2 = 0.001 for the numerical calculation. A detailed discussion of the cutoff scheme will be given ...
