The dispersion curve of glass is the curve that describes how the index of refraction of glass changes as a function of the wavelength. This curve can be represented approximately by Cauchy's empirical equation, n = A + B/2² where for a specific glass in question A = 1.40 and B = 2.5 × 10 nm² (yes, those units are nanometer squared). Find the phase and group velocities for light of 500nm wavelength in that glass.

The dispersion curve of glass is the curve that describes how the index of refraction of glass changes as a function of the wavelength. This curve can be represented approximately by Cauchy's empirical equation, n = A + B/2² where for a specific glass in question A = 1.40 and B = 2.5 × 10 nm² (yes, those units are nanometer squared). Find the phase and group velocities for light of 500nm wavelength in that glass.

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter7: Quantum Mechanics

Section: Chapter Questions

Problem 91CP: If STM is to detect surface features with local heights of about 0.0200 nm, what percent change in...

See similar textbooks

Similar questions

X-rays with wavelengths of 128 pm was used to study a crystal which produced a reflection of 15.8 degrees. Assuming first order diffraction (n = 1), what is the distance between the planes of atoms (d)?
When X-rays of wavelength lambada = 0.20nm are re-flected off the face of a crystal, a Bragg maximum is observed at a glancing angle theta= 17.5 degrees of with sufficient intensity that it is judged to be first order.(a)What is the spacing d of the planes that are paral-lel to the face in question? (b)What are the glancing angles of all higher order maxima?
Reflections from the {110} planes of barium titanate, BaTiO3, which has a tetragonal crystalline structure, were observed at glancing angles of 9.13° with Co Ka radiation of wavelength 179 pm. What is the value of the unit cell parameter a?
Quartz is a uniaxial birefringent material with refractive indices no=1.5534 and ne=1.5443. It is desired to make a quarter-wave plate of quartz for use with a Sodium laser of wavelength λ0=589 nm. Calculate the minimum thickness of the plate.Give your answer in micrometers to 1 d.p.
The interplanar distance of (101) plane of ZnO crystal is 0.45 nm. If the first-order diffraction maximum is observed at an incidence angle of 36.2°, what is the wavelength of the X-ray scattering from this crystal? And estimate the crystallite size of the ZnO nanomaterial if FWHM of (101) plane is 2.51° (degree to radian Degree x T/180) and k = 0.9.
A resonator is formed by a convex mirror of radius R1=-1 m and a concave mirror of radius R2=1.5 m. What is the maximum possible mirror separation if this is to remain a stable resonator?
) Consider a crystal consisting of m + 1 lattice planes of spacing d, of total thickness t = md, being set for diffraction as depicted in Fig. 2. At the incidence angle ӨB, Braggs law is satisfied. Explain the phenomenon through which the angles Ө1 and Ө2 are the limiting angles at which the diffracted intensity falls to zero.
Given the Dispersion relation n=1+2pi*(B/wavelength) where B is 10nm, find the group and phase velocity for light with a wavelength of 600nm
Consider a sound wave moving through the air modeled with the equation s(x,t)=6.00nmcos(54.93m1x18.84103s1t) . What is the shortest time required for an air molecule to move between 3.00 nm and -3.00 nm?
If STM is to detect surface features with local heights of about 0.0200 nm, what percent change in tunneling-electron current must the STM electronics be able to detect? Assume that the tunneling-electron current has characteristics given in the preceding problem.
Using partial derivatives, calculate the propagated uncertainty in the mass in the following case: given the centripetal force Fc = (20.0 ± 0.5) N, the angular velocity w = (29.2 ± 0.3) rad/s, and the radius R = (0.12 ± 0.01) m get the mass value,m = Fc / (w2R). Express the result in the form m = m + Δm ANSWER IS 0.20 +- 0.03 KGAS SAID, USE UNCERTAINTY PROPAGATION SHOWN IN THE IMAGE
1. The visible light of wavelength 5000˚A undergoes scattering from a crystal of refractive index 1.5. Calculate the maximum frequency of the phonon generated and the fractional change in the frequency of the incident radiation, given the velocity of sound in the crystal as 5000 m/s. 2. The Young’s modulus of NaCl in [100] direction is 5 × 1010N/m2 . Assuming that the extension in the [100] direction produces negligible contraction in the perpendicular directions, calculate the wavelength at which the electromanetic radiation is strongly reflected by the NaCl crystal. Atomic masses of Na and Cl are 23 and 35.5 a.m.u respectively.3. Gold has the structure as copper. The velocity of sound in gold is 2100 m/s and that in copper is 3800 m/s. If the Debye temperature of copper is 348 K, determine the Debye temperature of gold. The densities of gold and copper are 1.93 × 104kg/m3 and 8960kg/m3 and their atomic weights are 197.0 and 63.54 a.m.u respectively. 4. The Debye temperature of…