Relativistic Study of the Recoil Energy of Photon due to Nuclear and Atomic Transition in Mossbauer Effect
Journal Title: Bulletin of Pure and Applied Sciences Sec. D – Physics - Year 2018, Vol 37, Issue 2
Abstract
In this paper, we have discussed the non-relativistic and relativistic treatment of the recoil energy of photon due to the nuclear transition and atomic transition and calculated the total energy of the recoil event for atomic and nuclear transition which concluded that the relativistic recoil energy of photon due to nuclear transition is 105 times greater than that of atomic transition.
Authors and Affiliations
Dipo Mahto
Keywords
Related Articles
- EP ID EP528857
- DOI 10.5958/2320-3218.2018.00008.8
- Views 171
- Downloads 0
Some Finite Temperature Characteristics of the High-Tc Cuprates within t-J-U Model
The effects of nearest-neighbor (NN) antiferromagnetic (AF) exchange interaction (J) and temperature on high-Tc cuprates have been studied using an eight-site frustrated t-J-U model. Average hole density is taken as <h>...
Electromagnetic Characteristics of Carbon Nanotube Based Antennas
We have studied electromagnetic characteristics of carbon nanotube based antennas in different frequency regimes ranging from the microwave to visible. Analysis of the physical characteristics of carbon nanotube based in...
Patterns in Two Photon Photoemission Images of Light Diffracting Structures in Wave Guiding Transparent Thin Films
We have studied the patterns in two photon photoemission images of light diffracting structures in wave guiding transparent thin films. We first determined the wave numbers of guided modes that can be expected in dielect...
Comparative Study of the Radiation Power of Black Holes Due to Non-Relativistic & Relativistic Effect
In the present research paper, we have proposed a model for ratio of the radiation power & relativistic radiation power using the Stephen-Boltzmann-Schwarzschild-Hawking radiation formula to apply the variation of mass...
Physical and Structural Studies of (30-x) BaO-xAl2O3-69.5B2O3-0.5MnO2 Glasses
(30-x) BaO-xAl2O3-69.5B2O3-0.5MnO2 (0 ≤ x ≤ 15 mol%) (BABM) glasses have been prepared using melt quench method. In the present work, the main focus on the role of Al2O3 in the glass composition. Differential scanning c...