How to locate the direction of distribution of the photon beam?

A beam with a photon flux of 1000 photons/s is incident on a detector with a...

A beam with a photon flux of 1000 photons/s is incident on a detector with a quantum efficiency of 20%. If the time interval of the counter is set to 10 s, calculate the average and standard deviation of the photocount number for the following scenarios: (a) the light has Poissonian statistics; (b) the light has super-Poissonian statistics with ∆n = 2×∆nPoisson; (c) the light is in a photon number state.

4. A beam of linearly polarized light (in the xˆ direction) travels in the z direction,...

4. A beam of linearly polarized light (in the xˆ direction) travels in the z direction, through two polarizers. The first is oriented along the xˆ + yˆ direction, and the second is oriented in the yˆ direction. (a) Write down the Jones vector for the initial beam. (b) Write down the Jones matrix for the first polarizer. (Hecht table 8.6 is handy). (c) Find the Jones vector for the beam after the first polarizer. (d) Find the ratio of...

4. A beam of linearly polarized light (in the xˆ direction) travels in the z direction,...

4. A beam of linearly polarized light (in the xˆ direction) travels in the z direction, through two polarizers. The first is oriented along the xˆ + yˆ direction, and the second is oriented in the yˆ direction. (a) Write down the Jones vector for the initial beam. (b) Write down the Jones matrix for the first polarizer. (Hecht table 8.6 is handy). (c) Find the Jones vector for the beam after the first polarizer. (d) Find the ratio of...

A helium–neon laser produces a beam of diameter 1.75 mm, delivering 2.25 1018 photons/s. Each photon...

A helium–neon laser produces a beam of diameter 1.75 mm, delivering 2.25 1018 photons/s. Each photon has a wavelength of 633 nm. (a) Calculate the amplitude of the electric field inside the beam. _____________ kV/m (b) Calculate the amplitude of the magnetic field inside the beam. ______________µT (c) If the beam shines perpendicularly onto a perfectly reflecting surface, what force does it exert on the surface? ______________nN (d) If the beam is absorbed by a block of ice at 0°C...

A beam of protons is moving in the +x direction with a speed of 13 km/s...

A beam of protons is moving in the +x direction with a speed of 13 km/s through a region in which the electric field is perpendicular to the magnetic field. The beam of protons is not deflected in this region. The magnetic field has a magnitude of 0.8 T and points in the +y direction. Therefore, the magnitude of the electric field is 11.570 V/m (= (13 x 10³ m/s) (0.8T)) and the direction is along the negative z-axis. What...

A single photon from an unpolarized wave travelling in the z direction is directed through a...

A single photon from an unpolarized wave travelling in the z direction is directed through a series of three polarizers: first a polarizer with its axis in the x direction, then a polarizer at 30 degrees to the x axis, then finally a y polarizer. What is the probability that the photon makes it through the first (x) polarizer? If it comes through the first polarizer, what is its polarization state in between the first two polarizers? 3. What is...

A helium–neon laser produces a beam of diameter 1.75 mm, delivering 1.95  1018 photons/s. Each photon has...

A helium–neon laser produces a beam of diameter 1.75 mm, delivering 1.95  1018 photons/s. Each photon has a wavelength of 633 nm. (a) Calculate the amplitude of the electric field inside the beam. kV/m? (b) Calculate the amplitude of the magnetic field inside the beam. µT? (c) If the beam shines perpendicularly onto a perfectly reflecting surface, what force does it exert on the surface nN ? (d) If the beam is absorbed by a block of ice at 0°C for...

Gamma rays of photon energy 0.348 MeV are directed onto an aluminum target and are scattered...

Gamma rays of photon energy 0.348 MeV are directed onto an aluminum target and are scattered in various directions by loosely bound electrons there. (a) What is the wavelength of the incident gamma rays? (b) What is the wavelength of gamma rays scattered at 100° to the incident beam? (c) What is the photon energy of the rays scattered in this direction? The electron Compton wavelength is 2.43 × 10-12 m.

A beam of electrons is shot from left to right (+x direction) at a speed of...

A beam of electrons is shot from left to right (+x direction) at a speed of 3 x 105 m/s through a pair of plates that are 3 cm apart and are uniformly charged. They produce a force of 4.8 x 10–17 N upward on the electron (+y direction).   So that our results are unambiguous, vectors pointing from left to right will be called +x, and from bottom to top (along the surface of the paper) will be +y.   Vectors...

A beam of charged particles consisting of electron and protons are moving in +x direction and...

A beam of charged particles consisting of electron and protons are moving in +x direction and enter a region of uniform magnetic field in +y direction. If the protons are deflected in radius of 9.75ₓ10-2 m radius, calculate a) The magnitude of the magnetic field b) The radius that electron will be deflected and draw the schematic of the problem. c) The electric field that should be applied so that the protons remain undeflected (both magnitude and direction)