vuletic
... Cooling and trapping techniques Stabilizing Ions with Light Ions are a promising qubit for quantum computation. Ions are standardly trapped with time varying (RF) electric fields. These traps are limited in size and by micromotion, residual motion inherent in these RF traps. We are developing a new ...
... Cooling and trapping techniques Stabilizing Ions with Light Ions are a promising qubit for quantum computation. Ions are standardly trapped with time varying (RF) electric fields. These traps are limited in size and by micromotion, residual motion inherent in these RF traps. We are developing a new ...
Natural Sciences
... • The supersymmetric partners of quarks and gluons are expected to be produced with high rates • They decay into the lightest SUSY particle (LSP) • Weakly interacting à leaves the detector, carries away momentum and energy à characteristic signature: missing energy Example of a SUSY-Model ...
... • The supersymmetric partners of quarks and gluons are expected to be produced with high rates • They decay into the lightest SUSY particle (LSP) • Weakly interacting à leaves the detector, carries away momentum and energy à characteristic signature: missing energy Example of a SUSY-Model ...
1 ψ ω ω ω ψ ψ ψ
... (a) Determine the expectation value of x. (b) Determine the probability of finding the particle near L/2, by calculating the probability that the particle lies in the range 0.490L ≤ x ≤ 0.510L. (c) What If? Determine the probability of finding the particle near L/4, by calculating the probability th ...
... (a) Determine the expectation value of x. (b) Determine the probability of finding the particle near L/2, by calculating the probability that the particle lies in the range 0.490L ≤ x ≤ 0.510L. (c) What If? Determine the probability of finding the particle near L/4, by calculating the probability th ...
identical particles - The University of Oklahoma Department of
... Microscopic classical particles do not actually exist. But imagine that they do. They could be also be imagined to be identical. But you could still tell them apart at all times if you had sufficient information. For example say that you knew all the initial conditions of the system in which they we ...
... Microscopic classical particles do not actually exist. But imagine that they do. They could be also be imagined to be identical. But you could still tell them apart at all times if you had sufficient information. For example say that you knew all the initial conditions of the system in which they we ...
Earthquakes produce three types of seismic waves.
... Earthquakes produce three types of seismic waves. Primary Waves In primary waves, the particles of materials are slightly pushed together and pulled apart in the direction of the waves’ travel. ...
... Earthquakes produce three types of seismic waves. Primary Waves In primary waves, the particles of materials are slightly pushed together and pulled apart in the direction of the waves’ travel. ...
Spring 2006 Seminar Series
... particle systems, in order to obtain information of the density, shape or optical properties of the particles. In the study we use statistical parameters like the second moment of the scattered intensity,/2 and the probability density
function of the cross-polarized intensity. We present res ...
... particle systems, in order to obtain information of the density, shape or optical properties of the particles. In the study we use statistical parameters like the second moment of the scattered intensity,
CHAPTER 5: Wave Properties of Matter and Quantum Mechanics I
... The solution to the wave particle duality of an event is given by the following principle. Bohr’s principle of complementarity: It is not possible to describe physical observables simultaneously in terms of both particles and waves. Physical observables are those quantities such as position, velocit ...
... The solution to the wave particle duality of an event is given by the following principle. Bohr’s principle of complementarity: It is not possible to describe physical observables simultaneously in terms of both particles and waves. Physical observables are those quantities such as position, velocit ...