Rudolf Mössbauer discovered in 1957 that transitions from an excited nuclear state occur with negligible nuclear recoil when the nucleus is embedded in a large crystal lattice because the entire lattice absorbs the recoil. A transition like that in 191Ir from the 129- keV excited state to the ground state has a lifetime of 1.9 x 10-10 s. (a) Determine the energy width of the decay. (b) Similarly, if the photon is absorbed by 191Ir embedded in a crystal, the recoil is negligible. However, even a slight motion of the absorber will lead to a Doppler shift suffi cient to destroy the resonance absorption. Calculate the speed necessary to shift the energy absorption by 5Γ, where Γ is the nuclear decay width. This effect is called the Mössbauer effect

Rudolf Mössbauer discovered in 1957 that transitions from an excited nuclear state occur with negligible nuclear recoil when the nucleus is embedded in a large crystal lattice because the entire lattice absorbs the recoil. A transition like that in 191Ir from the 129- keV excited state to the ground state has a lifetime of 1.9 x 10-10 s. (a) Determine the energy width of the decay. (b) Similarly, if the photon is absorbed by 191Ir embedded in a crystal, the recoil is negligible. However, even a slight motion of the absorber will lead to a Doppler shift suffi cient to destroy the resonance absorption. Calculate the speed necessary to shift the energy absorption by 5Γ, where Γ is the nuclear decay width. This effect is called the Mössbauer effect

Related questions

Q: Consider a particle of mass m and charge q in a one-dimensional harmonic potential of frequency w.…

Q: Another component of the strong nuclear force is transmitted by the exchange of virtual K-mesons.…

A: The expression for the required range of the component of the strong force by using uncertainty…

Q: A 10.2 MeV Li nucleus is shot directly at the center of a Ds nucleus. At what center-to-center…

Q: Table 1 lists the systematic uncertainties on a matter-antimatter asymmetry, also known as…

Q: In a Geiger-Marsden experiment, calculate the distance of closest approach to the nucleus of Z = 80,…

A: Given: The atomic number of nucleus is Z1=80. The kinetic energy of alpha particle is K=8 MeV. The…

Q: 2.8 pm photons interact with free electrons from a carbon target. what will be the energy minimum…

A: Given: The wavelength of the photon is λ = 2.8 pm The mass of an electron is m0 = 9.1 x 10-31 kg The…

Q: Another component of the strong nuclear force is transmitted by the exchange of virtualK-mesons.…

Q: a) What are the cherenkov angles for electrons and pions of 1000 MeV/c in a medium with n =1.4? b)…

A: Given:- Electrons and pions of 1000 MeV/c in a medium with n =1. Find:- a) What are the Cherenkov…

Q: Two beams of 1 ev neutrons interact at an angle of 90o. The density of neutrons in both beams is…

A: Given:- The Energy of the two beams is E = 1eV The Neutrons interact at an angle of θ= 90° The…

Q: An alpha-particle with kinetic energy Tα = 7 .0 MeV is scattered elastically by an initially…

Q: What thickness of aluminum is required to reduce 200Kev gamma rays to 10% of its original value?…

A: The relation between the Radiation Intensity (Ix) at any thickness x is given as, Ix = Io e-μx,…

Q: (a) The lifetime of a highly unstable nucleus is 10-12 s. What is the smallest uncertainty (in ev)…

A: NOTE :- We’ll answer the first question since the exact one wasn’t specified. Please submit a new…

Q: length and nu

Q: What is the difference between γγ rays and characteristic x rays. Is either necessarily more…

A: Gamma rays * These are high energy photons that are released from the nucleus, due to de-excitation…

Q: While reproducing the Rutherford scattering experiment in an advanced laboratory class, a student…

A: Given Data: The thickness of the gold foil is t=28.8×10−9mThe energy of the alpha particle is…

Q: What fraction of the upper laser decay time, Y21 would the pumping rate, Гоз ,need to be greater…

A: The pumping rate is directly proportional to the coefficient of stimulated emission B21 R α B21R=B21…

Q: V Find the relationship of energy of n identical particles distribute on 2 energy Is and they have…

A: Maxwell Boltzmann statistics

Q: The DUNE neutrino detector consists of 4 x 10' kg of Argon (Ar). f the flux of muon neutrinos…

A: The mass of Argon present in the reactor is 4×107 kg The molar mass of one Argon atom is 40…

Q: 3 5) Be (I*=), initially at rest, captures K electrons and decays either to the ground state (I 2 2…

A: Hello. Since your question has multiple sub-parts, we will solve the first three sub-parts for you.…

Q: Prove that the difference in population numbers (N₁, N₂) between two energy levels E₂ and E₁ is…

Q: A sample of Si at 300 K doped with 1016 cm Boron, with recombination lifetime 3 us. It is exposed…

Q: A free neutron decays according to Eq. 42-26. If the neutron–hydrogen atom mass difference is 840…

Q: proton with kinetic energy 200 MeV is incident on alculate the centre-of-mass energy of its…

Q: A nucleus AX has a 2* first excited state at 1.369 MeV and a 4* second excited state at 4.476 MeV.…

A: Given: A nucleus has a first excited state 2+at 1.369 MeV The nucleus has a second excited state 4+…

Q: Q#1 (a)(i)A thermal neutron has a speed v at temperature T = 300 K and kinetic energy m = 3 KT…

Q: the deuteron given that the first line in the Lyman series of 1H lies at 82281.476 cm−1. Then,…

Q: BF3 tube usin

A: Given: A BF3 tube has efficiency of 1.6% for 10 eV neutrons.

Q: In an alpha particle (42He) scattering experiment, using a thin gold (19779Au) foil, the initial…

A: When an alpha particle approaches the nucleus of an atom, it experiences the repulsive force from…

Q: Alpha particles of energy 8.4 MeV are incident on a silver foil of thickness 6.5 μm. For a certain…

A: Detailed answer shown belowExplanation:Here's a comprehensive solution to the problem of alpha…

Q: A neutron is scattered through an angle of 60 degree in the C.M syste m in collision with…

A: Step 1:0To calculate the fractional loss of energy of the neutron and the maximum fractional energy…

Q: Nuclear radii may be measured by scattering high-energy electrons from nuclei. (a) What is the de…

Q: 55 MeV a-particles are incident nomally upon a target of gold foil 1.0 µm thick. A fraction 1 in 108…

A: This problem is based on the Rutherford scattering experiment From that experiment we obtain the…

Q: Free neutrons have a decay constant of 1.10 x 10-3s-'. If the de Broglie wavelength of the neutrons…

Q: Q10/ Find the relationship of energy of n identical particles distribute on 2 energy levels and they…

A: Relationship of energy of n identical particles distribute on 2 energy levels and they have the same…

Q: Nuclear radii may be measured by scattering high-energy electrons from nuclei. (a) What is the de…

A: Given:Energy, E = 172 Mev = 172×106 V

Q: A D-T pellet is heated by intense laser beams with wavelength of 2 μm. (1) Find the D-T plasma…

A: Given that, Wavelength, λ=2 micro metre λ= 2×10^(–6) m

Question

100%

Rudolf Mössbauer discovered in 1957 that transitions from an excited nuclear state occur with negligible nuclear recoil when the nucleus is embedded in a large crystal lattice because the entire lattice absorbs the recoil. A transition like that in ¹⁹¹Ir from the 129- keV excited state to the ground state has a lifetime of 1.9 x 10^-10 s. (a) Determine the energy width of the decay. (b) Similarly, if the photon is absorbed by 191Ir embedded in a crystal, the recoil is negligible. However, even a slight motion of the absorber will lead to a Doppler shift suffi cient to destroy the resonance absorption. Calculate the speed necessary to shift the energy absorption by 5Γ, where Γ is the nuclear decay width. This effect is called the Mössbauer effect

Expert Solution