Strong-Field Ionization of Lithium
... of the MPI rings and ubiquitous fan-like structures were seen well outside of the MPI domain. Now this effect is well understood and attributed to the long-range Coulomb interaction between the tunnel-ionized electron and the target ion it has left behind [17, 18]. The fan-like structures survive th ...
... of the MPI rings and ubiquitous fan-like structures were seen well outside of the MPI domain. Now this effect is well understood and attributed to the long-range Coulomb interaction between the tunnel-ionized electron and the target ion it has left behind [17, 18]. The fan-like structures survive th ...
Introduction to the physics of artificial gauge fields
... In this way the angular momentum per remaining atom increases in the course of evaporation. At the end of the evaporation, the search for the equilibrium state of the gas must take into account the angular momentum Lz of the trapped particles, which can be done using the Lagrange multiplier method. ...
... In this way the angular momentum per remaining atom increases in the course of evaporation. At the end of the evaporation, the search for the equilibrium state of the gas must take into account the angular momentum Lz of the trapped particles, which can be done using the Lagrange multiplier method. ...
Momentum - Net Start Class
... 1. An 8 N force acts on a 5 kg object for 3 sec. What impulse is given the object? What change in momentum does this impulse cause? If the object’s initial velocity was 25 m/s. what is its final velocity? Ans: 24 Nsec; 24 Nsec; 29.8 m/s 2. A 6 N force acts on a 3 kg object for 10 sec. What will be t ...
... 1. An 8 N force acts on a 5 kg object for 3 sec. What impulse is given the object? What change in momentum does this impulse cause? If the object’s initial velocity was 25 m/s. what is its final velocity? Ans: 24 Nsec; 24 Nsec; 29.8 m/s 2. A 6 N force acts on a 3 kg object for 10 sec. What will be t ...
- White Rose eTheses Online
... [21, 22]. Ultra-cold atoms represent idealized quantum mechanical systems and have strong potential as qubits in quantum information processing systems. It is possible to envisage that, by coupling cold atoms to DWs, qubits could be transported above complex networks of nanowires, allowing them to b ...
... [21, 22]. Ultra-cold atoms represent idealized quantum mechanical systems and have strong potential as qubits in quantum information processing systems. It is possible to envisage that, by coupling cold atoms to DWs, qubits could be transported above complex networks of nanowires, allowing them to b ...
The amonalous transport in plasmas
... turbulent noise was studied by this class of stochastic modeling. By using the results on the large deviations of the theory of the random multiplicative processes, the systematic study of the stochastic version of the linear stability analysis was started. The long-range correlations were studied b ...
... turbulent noise was studied by this class of stochastic modeling. By using the results on the large deviations of the theory of the random multiplicative processes, the systematic study of the stochastic version of the linear stability analysis was started. The long-range correlations were studied b ...
Tensorial spacetime geometries and background
... However, in recent years, there have been a number of attempts to establish modified spacetime backgrounds [1–7]. Most of them were motivated from approaches to quantum gravity [8–18], but many were also motivated from other particular physical and mathematical models [19–39]. Besides the need for t ...
... However, in recent years, there have been a number of attempts to establish modified spacetime backgrounds [1–7]. Most of them were motivated from approaches to quantum gravity [8–18], but many were also motivated from other particular physical and mathematical models [19–39]. Besides the need for t ...
Newton`s Laws and Momentum - science
... But also true and often overlooked; If you are moving with a constant velocity and the resultant force on you is zero you will stay moving with a constant velocity. An example of this is a vehicle at its maximum speed or a parachutist travelling at terminal velocity. If you want to accelerate the re ...
... But also true and often overlooked; If you are moving with a constant velocity and the resultant force on you is zero you will stay moving with a constant velocity. An example of this is a vehicle at its maximum speed or a parachutist travelling at terminal velocity. If you want to accelerate the re ...
Feng Yuan
... Current and planed experiments will have more and more data on various transverse spin observables Recent developments have laid solid theoretical ground to apply QCD theory to study the relevant nucleon structure ...
... Current and planed experiments will have more and more data on various transverse spin observables Recent developments have laid solid theoretical ground to apply QCD theory to study the relevant nucleon structure ...
silicon in the quantum limit: quantum computing
... The pursuit of spin and quantum entanglement-based devices in solid-state systems has become a global endeavor. The approach of the quantum size limit in computer electronics, the many recent advances in nanofabrication, and the rediscovery that information is physical (and thus based on quantum phy ...
... The pursuit of spin and quantum entanglement-based devices in solid-state systems has become a global endeavor. The approach of the quantum size limit in computer electronics, the many recent advances in nanofabrication, and the rediscovery that information is physical (and thus based on quantum phy ...
Lesson Plans Master-HS(1)
... mass and acceleration on the board. Ask students to consider when they have used or discussed this equation in the past. [previous MESA lessons, other classes, etc.] After some discussion of their previous learning, solicit explanations of Newton’s 2nd Law in students’ own words, and have them write ...
... mass and acceleration on the board. Ask students to consider when they have used or discussed this equation in the past. [previous MESA lessons, other classes, etc.] After some discussion of their previous learning, solicit explanations of Newton’s 2nd Law in students’ own words, and have them write ...
Electric and magnetic fields of a toroidal dipole in
... In Eqs. ( 11) and ( 13) the notation [ dF/dt],, means dF( t’) /dt and not dF( t’)/dt’, that is, the “ret” outside the square brackets applies to the arguments of the functions inside and not to the variable of differentiation. Eqs. ( 11) are the electric and magnetic fields of an arbitrarily moving ...
... In Eqs. ( 11) and ( 13) the notation [ dF/dt],, means dF( t’) /dt and not dF( t’)/dt’, that is, the “ret” outside the square brackets applies to the arguments of the functions inside and not to the variable of differentiation. Eqs. ( 11) are the electric and magnetic fields of an arbitrarily moving ...
Quantum vacuum thruster
A quantum vacuum plasma thruster (or Q-thruster) is a proposed type of spacecraft thruster that would work in part by acting on the virtual particles produced by quantum vacuum fluctuations. This was proposed as a possible model for an engine that could produce thrust without carrying its own propellant. Some physicists working with microwave resonant cavity thrusters think that they might be the first examples of such an engine.