 
									
								
									Foundational Questions Institute (FQXi)
									
... few decades is that the Einstein equations can be derived as an equation of state. This result suggests the possibility that spacetime itself may be thermodynamic in origin, and that the relationship between thermodynamics and the fundamental theory of spacetime may not at all be as it is ordinarily ...
                        	... few decades is that the Einstein equations can be derived as an equation of state. This result suggests the possibility that spacetime itself may be thermodynamic in origin, and that the relationship between thermodynamics and the fundamental theory of spacetime may not at all be as it is ordinarily ...
									QOLECTURE4
									
... The T2 (transverse) damping processes is related to elastic or near-elastic collisions which breaks the phase of the wavefunction without altering the population of the excited state mechanism In a gas, collisions can occur between the atoms or with the walls whereas in a solid there can be interac ...
                        	... The T2 (transverse) damping processes is related to elastic or near-elastic collisions which breaks the phase of the wavefunction without altering the population of the excited state mechanism In a gas, collisions can occur between the atoms or with the walls whereas in a solid there can be interac ...
									Two-level quantum dot in the Aharonov–Bohm ring. Towards understanding “phase lapse”  P.
									
... energy scale (Δ < 0). When the gate voltage decreases, ε1 crosses the Fermi energy as the first, is followed by ε2 crossing. It results in a temporal decrease of particle number of ε1; a part of charge from ε1 can be absorbed into ε2 which becomes unoccupied when approaching the Fermi level. It resu ...
                        	... energy scale (Δ < 0). When the gate voltage decreases, ε1 crosses the Fermi energy as the first, is followed by ε2 crossing. It results in a temporal decrease of particle number of ε1; a part of charge from ε1 can be absorbed into ε2 which becomes unoccupied when approaching the Fermi level. It resu ...
									Approved M.Sc. Syllabus 2014 SEMESTER 1
									
... Basic nuclear properties: Size, shape,charge distribution, spin and parity, isospin, Binding energy, magnetic dipole moment and electric quadrupole moment. Nucleon-nucleon interaction: Properties of deuteron, determination of ground state properties of deuteron by solving Schrodinger equation, excit ...
                        	... Basic nuclear properties: Size, shape,charge distribution, spin and parity, isospin, Binding energy, magnetic dipole moment and electric quadrupole moment. Nucleon-nucleon interaction: Properties of deuteron, determination of ground state properties of deuteron by solving Schrodinger equation, excit ...
									Chapter 6 Collisions of Charged Particles
									
... treated as if they were all simple two-body collisions. This is not quite true because of the long-range nature of the electromagnetic force, as we shall see, but it is possible, nevertheless, to treat the collisions as two-body, but correct for the influence of the other target particles in this pr ...
                        	... treated as if they were all simple two-body collisions. This is not quite true because of the long-range nature of the electromagnetic force, as we shall see, but it is possible, nevertheless, to treat the collisions as two-body, but correct for the influence of the other target particles in this pr ...
									Probing a scattering resonance in Rydberg molecules with a Bose
									
... with a detuning in this range are not shifted as much as the theory predicts, leading to an underestimated theory signal between -40 and 0 MHz. There are several simplifications in the model, which could lead to these discrepancies at intermediate detunings. All atoms are treated as point-like parti ...
                        	... with a detuning in this range are not shifted as much as the theory predicts, leading to an underestimated theory signal between -40 and 0 MHz. There are several simplifications in the model, which could lead to these discrepancies at intermediate detunings. All atoms are treated as point-like parti ...
									The hidden quantum entanglement roots of E = mc and its genesis to E
									
... represents the percentage energy density for ordinary energy and matter E(O), pure dark matter E(Dm) and pure dark energy E(DE) it is only one simple step. We conjecture that splitting the 4 spacetime dimensions into 1 + 3 dimensions gives us a justification for believing that this would correspond ...
                        	... represents the percentage energy density for ordinary energy and matter E(O), pure dark matter E(Dm) and pure dark energy E(DE) it is only one simple step. We conjecture that splitting the 4 spacetime dimensions into 1 + 3 dimensions gives us a justification for believing that this would correspond ...
									Name_______________________________________________
									
... c. An atom of any element is a unit that can stand on its own. d. The strength of attraction between charged particles depends on the distance between the atoms involved in the bond. 3. Noble-gas atoms are able to exist independently in nature because a. they are exceptions to the octet rule. b. the ...
                        	... c. An atom of any element is a unit that can stand on its own. d. The strength of attraction between charged particles depends on the distance between the atoms involved in the bond. 3. Noble-gas atoms are able to exist independently in nature because a. they are exceptions to the octet rule. b. the ...
									Quantum Information—S. Lloyd, L. Levitov, T. Orlando, J. H. Shapiro, N.C. Wong
									
... Quantum mechanics offers a variety of opportunities both to protect information (quantum cryptography) and to improve the precision of measurement, positioning and timing techniques. We are developing the world’s brightest source of narrow band entangled photons and are planning to use this source t ...
                        	... Quantum mechanics offers a variety of opportunities both to protect information (quantum cryptography) and to improve the precision of measurement, positioning and timing techniques. We are developing the world’s brightest source of narrow band entangled photons and are planning to use this source t ...
									PowerPoint
									
... represent data at a quantum level. Just as with classical computers, we can use 0’s and 1’s the represent numbers in binary. One way to do this is via the spin of a fundamental particle (such as an electron). Many fundamental particles possess an inherent spin - they spin either “west” (clockwise) o ...
                        	... represent data at a quantum level. Just as with classical computers, we can use 0’s and 1’s the represent numbers in binary. One way to do this is via the spin of a fundamental particle (such as an electron). Many fundamental particles possess an inherent spin - they spin either “west” (clockwise) o ...
									1 - PetyaPisanScienceAQ
									
... 1) Add about 0.5 g of sodium hydrogen carbonate to a test tube. Clamp this test tube on a right angle to the retort stand so that the sodium hydrogen carbonate is spread horizontally along the side of the tube. Heat the sodium hydrogen carbonate GENTLY for 2 minutes. Be sure not to heat the rubber o ...
                        	... 1) Add about 0.5 g of sodium hydrogen carbonate to a test tube. Clamp this test tube on a right angle to the retort stand so that the sodium hydrogen carbonate is spread horizontally along the side of the tube. Heat the sodium hydrogen carbonate GENTLY for 2 minutes. Be sure not to heat the rubber o ...
									Quantum Chaos
									
... If r is irrational: the system is quasiperiodic  no dynamical localization(?). Rational r=p/q; for large q, the period is very long and the localization time will be extremely long, i.e. not observable. The classical diffusion constant is not sensitive to the rational or irrational character of r ...
                        	... If r is irrational: the system is quasiperiodic  no dynamical localization(?). Rational r=p/q; for large q, the period is very long and the localization time will be extremely long, i.e. not observable. The classical diffusion constant is not sensitive to the rational or irrational character of r ...
									Jeopardy Atomic Physics
									
... continuous spectrum, while a hot luminous gas produces a line spectrum. Back to Jeopardy ...
                        	... continuous spectrum, while a hot luminous gas produces a line spectrum. Back to Jeopardy ...
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).
 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									