Excitation of high angular momentum Rydberg states
... Rydberg atomic states have a number of striking properties, including nearly macroscopic dimensions, large polarisabilities, long radiative lifetimes and nearly classical behaviour (Haroche and Raimond 1985, Gallas et al 1985). Within this class of states exists a set with unique properties, the ali ...
... Rydberg atomic states have a number of striking properties, including nearly macroscopic dimensions, large polarisabilities, long radiative lifetimes and nearly classical behaviour (Haroche and Raimond 1985, Gallas et al 1985). Within this class of states exists a set with unique properties, the ali ...
Quantum Numbers
... All particles – baryons & mesons are colourless – so each of the 3 quarks in a baryon has a different colour (r, g, b) ! In a meson the quark and the anti-quark carry opposite colour to be colourless ! Strong force between quarks carried by Gluons – carry colour ! Gian Gopal ...
... All particles – baryons & mesons are colourless – so each of the 3 quarks in a baryon has a different colour (r, g, b) ! In a meson the quark and the anti-quark carry opposite colour to be colourless ! Strong force between quarks carried by Gluons – carry colour ! Gian Gopal ...
Module Guide
... We will use StudyNet for some electronic course materials and as a forum for discussion and general feedback. We will also use StudyNET for stop press announcements. You will have to be registered on the Quantum Computing Course (module) on StudyNET to access this medium. Log unto StudyNET using the ...
... We will use StudyNet for some electronic course materials and as a forum for discussion and general feedback. We will also use StudyNET for stop press announcements. You will have to be registered on the Quantum Computing Course (module) on StudyNET to access this medium. Log unto StudyNET using the ...
Electron Configuration
... Use the last noble gas that is located in the periodic table right before the element. Write the symbol of the noble gas in brackets. Write the remaining configuration after the brackets. Ex: Fluorine: [He] 2s2 2p5 ...
... Use the last noble gas that is located in the periodic table right before the element. Write the symbol of the noble gas in brackets. Write the remaining configuration after the brackets. Ex: Fluorine: [He] 2s2 2p5 ...
A deterministic source of entangled photons
... • Photon losses can seriously limit the efficiency of the scheme; the fidelity rapidly decays for increasing losses • In principle, the effect of photon losses can be avoided using post-selection, i.e. discarding all the cases with less than n photons • However, with post-selection the scheme is no ...
... • Photon losses can seriously limit the efficiency of the scheme; the fidelity rapidly decays for increasing losses • In principle, the effect of photon losses can be avoided using post-selection, i.e. discarding all the cases with less than n photons • However, with post-selection the scheme is no ...
CHEM 1411 EXAM I (Chapters 1, 2, 3): 25
... Hint: For 9 ed., section 3.6: Interactive Example 3.9. % S = (mass of 2 O/ mass of SO2) x 100% = {2x16/(1x32+2x16)}x100% = 50.0% 18. Chemical analysis shows the composition of a compound containing carbon, hydrogen, chlorine, and oxygen, to be 37.84% C, 2.12% H, 55.84% Cl, and 4.20% O. What is its e ...
... Hint: For 9 ed., section 3.6: Interactive Example 3.9. % S = (mass of 2 O/ mass of SO2) x 100% = {2x16/(1x32+2x16)}x100% = 50.0% 18. Chemical analysis shows the composition of a compound containing carbon, hydrogen, chlorine, and oxygen, to be 37.84% C, 2.12% H, 55.84% Cl, and 4.20% O. What is its e ...
with x
... Planck to the rescue Max Planck devised a theory for a simple black body that could describe the measured spectra. He assumed that the walls consisted of little radiators that only emitted light at certain discrete energies: E=nhf f the frequency of the light (Hz) h: planck’s constant (6.63 ...
... Planck to the rescue Max Planck devised a theory for a simple black body that could describe the measured spectra. He assumed that the walls consisted of little radiators that only emitted light at certain discrete energies: E=nhf f the frequency of the light (Hz) h: planck’s constant (6.63 ...
Lecture 2 - Artur Ekert
... The horizontal line represents a quantum wire, which inertly carries a qubit from one quantum operation to another. The wire may describe translation in space, e.g. atoms travelling through cavities, or translation in time, e.g. between operations performed on a trapped ion. If we want to signify th ...
... The horizontal line represents a quantum wire, which inertly carries a qubit from one quantum operation to another. The wire may describe translation in space, e.g. atoms travelling through cavities, or translation in time, e.g. between operations performed on a trapped ion. If we want to signify th ...
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).