12.5. Time Spectroscopy 713
N
o. of^ TACPulsesFWHMTAC AmplitudeBackgroundCoincidence Figure 12.5.2: A typical time spectrum for co-
incidence spectroscopy.Problems
1.Compute the atomic plane spacing of a crystal if an x-ray beam of 1.542 ̊A
produces a first order diffraction peak at 2θ=43. 50.
2.Compute the wavelength of thermal neutrons.3.Compare the wave vector and wavelength of 1.5MeVneutrons with photons
having same energy.4.A triple-axis spectrometer is modified such that its angular resolution improves
by 10% for neutrons of a certain energy. Assuming thatdremains the same,
estimate the change in the energy resolution.