Hyperfine course

quick start
2 Topics
practical info
about you
the nucleus
7 Topics
nuclear properties
multipole moments
nuclear moment tabulation
multipole radiation
(optional) why are odd electric moments zero?
exit (w1)
webinar (w1)
framework
6 Topics
VIP-1
gravitational analogue
double ring
quantum multipole expansion
exit (w2)
webinar (w2)
electric monopole shift
5 Topics
overview framework
expression and physics
toy model
exit (w3)
webinar (w3)
magnetic hyperfine interaction
6 Topics
overview framework
in free atoms
in solids
overlap contribution
exit (w4)
webinar (w4)
electric quadrupole interaction
8 Topics
overview framework
from toy model to quantum
quadrupole operator
case studies / symmetry
miscellaneous topics
(optional) quadrupole shifts
exit (w5)
webinar (w5)
classification of methods
2 Topics
summary of what came before
from VIP1 to VIP2
laser spectroscopy
4 Topics
short overview classification
laser spectroscopy
exit (w6)
webinar (w6)
Mössbauer spectroscopy
7 Topics
short overview classification
recoil, linewidth, resonant scattering
realizing nuclear resonant scattering
Mössbauer spectroscopy
miscellaneous Mössbauer topics
exit (w7)
webinar (w7)
synchrotron methods
8 Topics
short overview classification
short overview Mössbauer
synchrotron radiation facilities
nuclear resonant scattering
nuclear inelastic scattering
(optional) synchrotron Mössbauer spectroscopy at extreme conditions
exit (w8)
webinar (w8)
NMR & NQR
7 Topics
short overview classification
orientation of a nuclear ensemble
orientation: temperature and radiation
NMR and NQR
reading task NMR/NQR
exit (w9)
webinar (w9)
EPR
7 Topics
short overview classification
EPR on free atoms
EPR on molecules and crystals
ENDOR
(optional) conference talk
exit (w10)
webinar (w10)
LTNO & NMR/ON
7 Topics
short overview: classification
short overview: orientation of a nuclear ensemble
short overview: orientation – temperature and radiation
low-temperature nuclear orientation
NMR/ON
(optional) the dilution refridgerator
(optional) two conference talks
PAC
5 Topics
short overview classification
perturbed angular correlation spectroscopy
(optional) an application of PAC
exit (w11)
webinar (w11)
μSR (optional)
2 Topics
short overview classification
μSR
refreshers
7 Topics
tensors : several introductions
spin : an intuitive picture
perturbation theory
the g-factor
double split experiment
amplitude, probability, intensity
course summaries
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overlap contribution

Hyperfine course magnetic hyperfine interaction overlap contribution

In the monopole term of the Coulomb interaction between nuclei and electrons, there was an additional effect due to electron penetration in the nucleus (monopole shift). Now, we’ll examine what happens to the magnetic dipole term when electrons penetrate the nucleus.

You will understand similarities (in principle) and differences (in practice) between the impact of electron penetration in the nucleus for the electric monopole term and the magnetic dipole term. You will understand the Bohr-Weisskopf effect, and why it matters for nuclear physics.

transcription
printable slides (3)
printable slides (6)

Two questions for this video:

1. Imagine a perfectly spherical nucleus, with non-zero radius. Imagine all electron charges stay outside that nucleus. Will there be energy corrections due to the finite size of this nucleus? Why (not)?

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2. There are 4 statements in this Google form. Tick the one(s) that you think are correct:

Expected time: 45 minutes (report)

A04-03

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