13.1-5Photon Energy.(a) What voltage should be applied to an electrode to accelerate an electron from zerovelocity such that it acquires the same energy as a photon of wavelength A,(b) A photon of wavelength 1.06 µm is combined with a photon of wavelength 10.6 µm tocreate a photon whose energy is the sum of the energies of the two photons. What is thewavelength of the resultant photon? This process, known as sum-frequency generation,is illustrated in Fig. 22.2-6.= 0.87 µm? w3=Wi+w2w1Nd3+:YAG laser0.96 µm1.06 umProustite crystalw2CO2 laser10.6 umFigure 22.2-6 An example of sum-frequency generation (SFG), also called frequency up-conversion, in a nonlinear crystal.

Given Wavelength of a photon=0.87μm

Answered: (a) What voltage should be applied to…

Similar questions

A laser emits a pulse of light with energy 5.0*10^3 J. How do we determine the number of photons in the pulse if the wavelength of light is 480 nm?
Light of wavelength 340 nm, 600 nm and 680 nm is incident on a metal. Electrons are not emitted from the metal, which of the following is the most likely scenario. The energy of the photon for 600 nm light corresponds to the work function of the material. The energy of the photon for 680 nm light corresponds to the work function of the material. The work function is less than any of these photon energies. The work function is more than any of these photon energies. The energy of the photon for 340 nm light corresponds to the work function of the material.
X-ray photons of wavelength 0.0248 nm are incident on a target and the Compton-scattered photons are observed at 80.0° above the photons' incident line of travel. [Use relativistic units for this problem!] (a) What is the wavelength of the scattered photons? nm (b) What is the momentum of the incident photons? eV/c What is the momentum of the scattered photons? eV/c (c) What is the kinetic energy of the scattered electrons? eV (d) What is the momentum (magnitude and angle) of the scattered electrons? eV/c
For light with a wavelength of 350 nm and with an intensity of /= 10-8 W/m², what is the number of photons/(m²s) in the light beam?
X-ray photons of wavelength 0.0248 nm are incident on a target and the Compton-scattered photons are observed at 80.0° above the photons' incident line of travel. [Use relativistic units for this problem!](a) What is the momentum of the incident photons? eV/c(b) What is the momentum (magnitude and angle) of the scattered electrons? eV/c°magnitude=61802.35 angel=?
The work function of a material refers to the minimum energy required to remove an electron from the material. The work function of tungsten is 4.55 eV. Calculate the maximum wavelength (in nm) for the photoelectric emission of electrons. O λ = 220 nm O λ = 287 nm Oλ = 292 nm Oλ = 273 nm
A photon with wavelength 0.1100 nm collides with a free electron that is initially at rest. After the collision the wavelength is 0.1132 nm. (a) What is the kinetic energy of the electron after the collision? What is its speed? (b) If the electron is suddenly stopped (for example, in a solid target), all of its kinetic energy is used to create a photon. What is the wavelength of this photon?
Photons that have a wavelength of 0.00226 nm are Compton scattered off stationary electrons at 33.0 degrees. What is the energy E of the scattered photons? E = ? J