Elektromagnetisme, noter og formelsamling
... is the sum of kinetic energy of the particles of the system and ...
... is the sum of kinetic energy of the particles of the system and ...
ABSTRACT Three-Body Recombination and Rydberg Atoms in Ultracold Plasmas
... the sign is relative to the line pointing along the axis of the slower in the direction the atomic beam propagates)[3]. This is done by using two coils - the slower coil, providing the larger, positive field and running at about 35 A, and the reverse slower coil, providing the smaller, negative fie ...
... the sign is relative to the line pointing along the axis of the slower in the direction the atomic beam propagates)[3]. This is done by using two coils - the slower coil, providing the larger, positive field and running at about 35 A, and the reverse slower coil, providing the smaller, negative fie ...
Quantum Information Processing with Finite Resources
... information theory, and its goal is to investigate how these resources are interrelated and how they can be transformed into each other. For example, we aim to compress a data source that contains redundancy into one that does not, or to transform a noisy channel into a noiseless one. Information th ...
... information theory, and its goal is to investigate how these resources are interrelated and how they can be transformed into each other. For example, we aim to compress a data source that contains redundancy into one that does not, or to transform a noisy channel into a noiseless one. Information th ...
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... is useful for understanding low energy (≈ 1 GeV) strong interaction scattering cross sections. Consider the two reactions (d = deuterium): pp → dπ+ pn → dπ0 ◆ Deuterium is an “iso-singlet”, |0,0>. ◆ In terms of isospin states we have: pp = |1/2,1/2>|1/2,1/2> dπ+ = |0,0>|1,1> pn = |1/2,1/2>|1/2,-1 ...
... is useful for understanding low energy (≈ 1 GeV) strong interaction scattering cross sections. Consider the two reactions (d = deuterium): pp → dπ+ pn → dπ0 ◆ Deuterium is an “iso-singlet”, |0,0>. ◆ In terms of isospin states we have: pp = |1/2,1/2>|1/2,1/2> dπ+ = |0,0>|1,1> pn = |1/2,1/2>|1/2,-1 ...
Ultracold Molecules from Ultracold Atoms: Interactions in Sodium
... interactions, and might even offer simple examples where problems of two or three particles can be explicitly solved to explain observable phenomena. However, ask a physicist to calculate the mass of an arbitrary nucleus, and they will invoke approximations such a mean-field theories, shell models, ...
... interactions, and might even offer simple examples where problems of two or three particles can be explicitly solved to explain observable phenomena. However, ask a physicist to calculate the mass of an arbitrary nucleus, and they will invoke approximations such a mean-field theories, shell models, ...
Rydberg Atoms for Quantum Information - Deep Blue
... Saulnier prepared me very well for the hardships of graduate school, even if I didn’t always appreciate the hard work. Most importantly, I want to thank my family for all of the support and encouragement they have given me over the last many, many years I have spent in school. Mom, we spent 16,883 m ...
... Saulnier prepared me very well for the hardships of graduate school, even if I didn’t always appreciate the hard work. Most importantly, I want to thank my family for all of the support and encouragement they have given me over the last many, many years I have spent in school. Mom, we spent 16,883 m ...
Hydrogen atom
A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).