Wake Fields in Particle Accelerators with Finite Thickness and
... Accelerators are devices that control and manipulate the motion of charged subatomic particles (protons, electrons, neutrons) impressing high kinetic energies by the action of electromagnetic or electrostatic fields. The accelerated particles are sent against an appropriate “target” to investigate f ...
... Accelerators are devices that control and manipulate the motion of charged subatomic particles (protons, electrons, neutrons) impressing high kinetic energies by the action of electromagnetic or electrostatic fields. The accelerated particles are sent against an appropriate “target” to investigate f ...
Dynamics - Bergen.org
... Goodman and Zavorotniy - 209 Momentum Introduction As was pointed out in the previous chapter, some of the most powerful tools in physics are based on conservation principles. The idea behind a conservation principle is that there are some properties of systems that don’t change, even though other t ...
... Goodman and Zavorotniy - 209 Momentum Introduction As was pointed out in the previous chapter, some of the most powerful tools in physics are based on conservation principles. The idea behind a conservation principle is that there are some properties of systems that don’t change, even though other t ...
Observation of qubit state with a dc-SQUID and dissipation effect... Hideaki Takayanagi, Hirotaka Tanaka, Shiro Saito and Hayato Nakano
... smaller than 100 nm. The charge noise exists over a wide range of time scales and degrades the quality not only in the qubit but also in other applications, such as the current standard with a single electron transistor_In contrast, flux noise, which is more important in a flux qubit [8], also exist ...
... smaller than 100 nm. The charge noise exists over a wide range of time scales and degrades the quality not only in the qubit but also in other applications, such as the current standard with a single electron transistor_In contrast, flux noise, which is more important in a flux qubit [8], also exist ...
Lifetime of Rubidium Rydberg Atoms in a Magneto - UvA-DARE
... Rydberg atoms, atoms with one or more outer electrons in states with high principal quantum number n, are a popular subject in current atom physics. Their unique properties make Rydberg atoms a testing ground for several quantum mechanical phenomena. The ongoing research in the group I joined for th ...
... Rydberg atoms, atoms with one or more outer electrons in states with high principal quantum number n, are a popular subject in current atom physics. Their unique properties make Rydberg atoms a testing ground for several quantum mechanical phenomena. The ongoing research in the group I joined for th ...
Global Magnetospheric Plasma Convection Stefan Eriksson
... Keeping track of separate particle orbits in a plasma is often impossible in the presence of electric and magnetic fields. Additional collective effects, such as currents and particle pressure in the plasma, set up forces that act on spatial scales longer than any individual particle gyro-orbit. The ...
... Keeping track of separate particle orbits in a plasma is often impossible in the presence of electric and magnetic fields. Additional collective effects, such as currents and particle pressure in the plasma, set up forces that act on spatial scales longer than any individual particle gyro-orbit. The ...
AIAA-2004-5668 - CSU Radar Group
... In practice, not all of the desirable parameters are readily achievable simultaneously. For example, one common scheme involves accelerating ions to a given flow speed using a multi-grid, “accel-decel” configuration (sometimes known as a “Kaufmann thruster,” since this arrangement was developed as ...
... In practice, not all of the desirable parameters are readily achievable simultaneously. For example, one common scheme involves accelerating ions to a given flow speed using a multi-grid, “accel-decel” configuration (sometimes known as a “Kaufmann thruster,” since this arrangement was developed as ...
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.