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6. Quantum Electrodynamics

... In this section we finally get to quantum electrodynamics (QED), the theory of light interacting with charged matter. Our path to quantization will be as before: we start with the free theory of the electromagnetic field and see how the quantum theory gives rise to a photon with two polarization sta ...

topical

Physics 207: Lecture 2 Notes

Physics 106P: Lecture 1 Notes

Lecture 11 - Conservation of Momentum

... A) As the ball bounces to the leR, cart 1 moves faster to the right to conserve momentum. B) Some of the energy is not transferred to box 1, since the ball bounces back C) The star;ng velocity ...

ch24_lecture

7.2.1 Seismic waves - The Berkeley Course in Applied Geophysics

... solution in time is sinusoidal and that the time dependence is given by eit, where  is the angular frequency in radians/sec (equal to 2f, where f is the frequency in cycles per second or Hertz). With this solution in t the equation of motion becomes: 2u/x2 +2/K u = 0 or, with 2/K = k2 2u/ ...

Multilayer Reflectivity

... to exponential damping of the time-averaged Poynting vector. With the addition of the second term in the brackets above, we see that energy is transported in a direction that differs from the direction of the wave, which is given by Re ~k. This term is zero if ~k is real, or if the electric field is ...

ROTATIONAL MOTION

Hierarchy of Planck Constants

The Spin-Statistics Theorem and Identical Particle

to see a detailed table of contents outlining all chapter lessons in

... General Plane Motion Absolute and Relative Velocity in Plane Motion Instantaneous Center of Rotation in Plane Motion Absolute and Relative Acceleration in Plane Motion Analysis of Plane Motion in Terms of a Parameter Rate of Change of a Vector with Respect to a Rotating Frame Plane Motion of a Parti ...

or 0 - Hodge Hill College

... l What are the forces that control their behaviour at the most basic level? The LHC can reconstruct the enormous energies that existed just after the Big Bang. Studying its particle collisions is like ‘looking back in time’, recreating the environment present at the origin of our universe. By accele ...

Motion - Images

... gravitational energy when it is spread out than when it contracts.  A contracting cloud converts gravitational potential energy to thermal energy. ...

PHYS 221 General Physics I Course Outcome Summary Course

Chapter 8

... to the axis of rotation is called the lever arm. The product of the force and the lever arm is called the torque. ...

Particle Astrophysics Lecture 5 Gamma-ray Astronomy

... As we saw, VHE gamma-rays (E γ = 30 GeV) have a limited horizon due to their interaction with the CMB and the Extragalactic Background Light (EBL) (http://en.wikipedia.org /wiki/Extragalactic_background_light). The TeV signal of distant AGNs are (partially) absorved at the highest energies by the EL ...

Q 2 - Jefferson Lab

... Defined in context of single-photon exchange. Describe how much the nucleus deviates from a point like particle. Describe the internal structure of the nucleons. Provide the information on the spatial distribution of electric charge (by electric form factor,GE) and magnetic moment ( by magnetic form ...

Paper

... Bz 1:3 G to Bz 0 in 10 ms to imprint the coreless vortices. This compressed the condensate radially and increased the condensate chemical potential from B =2 3 mG to B =2 27 mG. Ramping Bz ! 0 fast compared to the axial trap period (250 ms), but slow compared to the initial rad ...

SYSTEMS OF PARTICLES AND ROTATIONAL MOTION

... The angular velocity vector ω is directed along the fixed axis as shown. The linear velocity of the particle at P is v = ω × r. It is perpendicular to both ω and r and is directed along the tangent to the circle described by the particle. ...

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Photon polarization

Photon polarization is the quantum mechanical description of the classical polarized sinusoidal plane electromagnetic wave. Individual photon eigenstates have either right or left circular polarization. A photon that is in a superposition of eigenstates can have linear, circular, or elliptical polarization.The description of photon polarization contains many of the physical concepts and much of the mathematical machinery of more involved quantum descriptions, such as the quantum mechanics of an electron in a potential well, and forms a fundamental basis for an understanding of more complicated quantum phenomena. Much of the mathematical machinery of quantum mechanics, such as state vectors, probability amplitudes, unitary operators, and Hermitian operators, emerge naturally from the classical Maxwell's equations in the description. The quantum polarization state vector for the photon, for instance, is identical with the Jones vector, usually used to describe the polarization of a classical wave. Unitary operators emerge from the classical requirement of the conservation of energy of a classical wave propagating through media that alter the polarization state of the wave. Hermitian operators then follow for infinitesimal transformations of a classical polarization state.Many of the implications of the mathematical machinery are easily verified experimentally. In fact, many of the experiments can be performed with two pairs (or one broken pair) of polaroid sunglasses.The connection with quantum mechanics is made through the identification of a minimum packet size, called a photon, for energy in the electromagnetic field. The identification is based on the theories of Planck and the interpretation of those theories by Einstein. The correspondence principle then allows the identification of momentum and angular momentum (called spin), as well as energy, with the photon.

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Photon polarization