![Measurement of the total energy of an isolated system by an internal](http://s1.studyres.com/store/data/001652574_1-94d86d280d795e9df4d7a5e06de63706-300x300.png)
Non-exponential and oscillatory decays in quantum mechanics
... of the original Hamiltonian between an intrinsic state |1i and the channel state |c, Ei. The channel state is labeled here by the asymptotic energy E and all additional quantum numbers are combined in label c. For convenience, in this formalism the channel states are normalized by delta function of ...
... of the original Hamiltonian between an intrinsic state |1i and the channel state |c, Ei. The channel state is labeled here by the asymptotic energy E and all additional quantum numbers are combined in label c. For convenience, in this formalism the channel states are normalized by delta function of ...
Tailoring Rydberg interactions via F\" orster resonances: state
... information processing to quantum simulation [1]. The underlying reason turning Rydberg gases into such a rich system is the strong dipole-dipole interaction between pairs of atoms [2–5]. The strength and angular dependence of this interaction can be tailored by means of Förster resonances. These r ...
... information processing to quantum simulation [1]. The underlying reason turning Rydberg gases into such a rich system is the strong dipole-dipole interaction between pairs of atoms [2–5]. The strength and angular dependence of this interaction can be tailored by means of Förster resonances. These r ...
Stationary Solutions of the Klein-Gordon Equation in a Potential Field
... play special roles in this method, which are called the base functions as we can establish mapping relations between them and arbitrary functions in a certain range. For instance, in quantum mechanics, (2) determines the mapping relations between wave functions of free particles and arbitrary wave f ...
... play special roles in this method, which are called the base functions as we can establish mapping relations between them and arbitrary functions in a certain range. For instance, in quantum mechanics, (2) determines the mapping relations between wave functions of free particles and arbitrary wave f ...
The deuteron
... The Deuteron - Angular momentum 1. In analogy with the ground state of the hydrogen atom, it is reasonable to assume that the ground state of the deuteron also has zero orbital angular momentum L = 0 2. However the total angular momentum is measured to be I = 1 (one unit of h/2π) thus it follows th ...
... The Deuteron - Angular momentum 1. In analogy with the ground state of the hydrogen atom, it is reasonable to assume that the ground state of the deuteron also has zero orbital angular momentum L = 0 2. However the total angular momentum is measured to be I = 1 (one unit of h/2π) thus it follows th ...
Base units of the SI, fundamental constants and
... diffraction corrections have been studied in great detail by generations of opticians. The propagation of light pulses is also very well described and understood in laser and microwave links. It is true that ultra-short pulses can generate nonlinear effects (even the vacuum becomes nonlinear at some ...
... diffraction corrections have been studied in great detail by generations of opticians. The propagation of light pulses is also very well described and understood in laser and microwave links. It is true that ultra-short pulses can generate nonlinear effects (even the vacuum becomes nonlinear at some ...
Primer on topological insulators
... occupied band is called valence band, while the lowest lying empty band goes by the name valence band. From our discussion above, it should be evident that these two bands play a dominant role in the physics of an insulating material, i.e. many physical properties of insulators can be understood, fo ...
... occupied band is called valence band, while the lowest lying empty band goes by the name valence band. From our discussion above, it should be evident that these two bands play a dominant role in the physics of an insulating material, i.e. many physical properties of insulators can be understood, fo ...
Models of the Electron
... Particle Characteristic. The electron is generally classified as an elementary particle (not composed of other particles). Certain phenomena such as the photoelectric effect, fluorescence, and the Miliken oil drop experiment show that the electron has a small and quantized amount of mass and charge, ...
... Particle Characteristic. The electron is generally classified as an elementary particle (not composed of other particles). Certain phenomena such as the photoelectric effect, fluorescence, and the Miliken oil drop experiment show that the electron has a small and quantized amount of mass and charge, ...
Kondo Model for the ‘‘0.7 Anomaly’’ in Transport through a... * Kenji Hirose, Yigal Meir, and Ned S. Wingreen
... bound in the vicinity of the QPC. The transmission coefficient T) for electrons in the lowest subband is shown in the left inset to Fig. 3(a). Transmission for spin-up is approximately one over a broad range of energies above the spin-up resonance. This implies an onset of strong hybridization at ...
... bound in the vicinity of the QPC. The transmission coefficient T) for electrons in the lowest subband is shown in the left inset to Fig. 3(a). Transmission for spin-up is approximately one over a broad range of energies above the spin-up resonance. This implies an onset of strong hybridization at ...
7, 10867 (2016)
... on1–3. In this context, the recent experimental realization of SMC in ultracold atomic gases provides a powerful platform for engineering many interesting and novel quantum phases4–9. In typical experiments, two atomic hyperfine states act as two pseudospins that are coupled to the momentum of the at ...
... on1–3. In this context, the recent experimental realization of SMC in ultracold atomic gases provides a powerful platform for engineering many interesting and novel quantum phases4–9. In typical experiments, two atomic hyperfine states act as two pseudospins that are coupled to the momentum of the at ...
Paper
... 1064 nm optical dipole trap with a waist of 25 m and a maximum power of 9 W. The 6 Li and 23 Na atoms were then transferred to the j1=2; 1=2i and j1; 1i hyperfine states, respectively, by simultaneous RF Landau-Zener sweeps. The sweeps were done by ramping the magnetic field from nine to 10 G in 10 ...
... 1064 nm optical dipole trap with a waist of 25 m and a maximum power of 9 W. The 6 Li and 23 Na atoms were then transferred to the j1=2; 1=2i and j1; 1i hyperfine states, respectively, by simultaneous RF Landau-Zener sweeps. The sweeps were done by ramping the magnetic field from nine to 10 G in 10 ...
PDF only - at www.arxiv.org.
... atoms (Inset, Fig. 2c). During clock operations the mechanical translator can be retracted to avoid interference with the atomic cloud, as can be seen in Fig. 2b. Systematic errors in both the readout of the sensors and their ability to determine the actual thermal distribution at the position of th ...
... atoms (Inset, Fig. 2c). During clock operations the mechanical translator can be retracted to avoid interference with the atomic cloud, as can be seen in Fig. 2b. Systematic errors in both the readout of the sensors and their ability to determine the actual thermal distribution at the position of th ...
Self-assembled quantum dots
... For a combination of materials with a substantial lattice mismatch, in the process of StranskyKranstanov growth, the first deposited layer (so called wetting layer) adopts its in-plane lattice constants to match the substrate lattice constant (it is so called pseudo-morph). For a case shown on Fig.5 ...
... For a combination of materials with a substantial lattice mismatch, in the process of StranskyKranstanov growth, the first deposited layer (so called wetting layer) adopts its in-plane lattice constants to match the substrate lattice constant (it is so called pseudo-morph). For a case shown on Fig.5 ...
How does a solar cell work? by Finley R. Shapiro First, let`s be clear
... atoms are all bonded together this way. Each silicon atom is bound to four other silicon atoms, each of which is bound to the first one plus three more, and so forth. You can see a picture of the structure of a silicon crystal at http://en.wikipedia.org/wiki/Silicon#Crystallization. With all of thes ...
... atoms are all bonded together this way. Each silicon atom is bound to four other silicon atoms, each of which is bound to the first one plus three more, and so forth. You can see a picture of the structure of a silicon crystal at http://en.wikipedia.org/wiki/Silicon#Crystallization. With all of thes ...
Memory-built-in quantum teleportation with photonic and atomic qubits
... memory2–5 of photonic qubits is essential for future implementations of large-scale quantum communication6 and measurement-based quantum computation7,8 . Both steps have been achieved separately in many proof-of-principle experiments9–14 , but the demonstration of memory-built-in teleportation of ph ...
... memory2–5 of photonic qubits is essential for future implementations of large-scale quantum communication6 and measurement-based quantum computation7,8 . Both steps have been achieved separately in many proof-of-principle experiments9–14 , but the demonstration of memory-built-in teleportation of ph ...