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Hyperfine course

nuclear properties

multipole moments

nuclear moment tabulation

multipole radiation

(optional) why are odd electric moments zero?

gravitational analogue

quantum multipole expansion

electric monopole shift

overview framework

expression and physics

magnetic hyperfine interaction

overview framework

overlap contribution

electric quadrupole interaction

overview framework

from toy model to quantum

quadrupole operator

case studies / symmetry

miscellaneous topics

(optional) quadrupole shifts

classification of methods

summary of what came before

from VIP1 to VIP2

laser spectroscopy

short overview classification

laser spectroscopy

Mössbauer spectroscopy

short overview classification

recoil, linewidth, resonant scattering

realizing nuclear resonant scattering

Mössbauer spectroscopy

miscellaneous Mössbauer topics

synchrotron methods

short overview classification

short overview Mössbauer

synchrotron radiation facilities

nuclear resonant scattering

nuclear inelastic scattering

(optional) synchrotron Mössbauer spectroscopy at extreme conditions

short overview classification

orientation of a nuclear ensemble

orientation: temperature and radiation

reading task NMR/NQR

short overview classification

EPR on free atoms

EPR on molecules and crystals

(optional) conference talk

short overview: classification

short overview: orientation of a nuclear ensemble

short overview: orientation – temperature and radiation

low-temperature nuclear orientation

(optional) the dilution refridgerator

(optional) two conference talks

short overview classification

perturbed angular correlation spectroscopy

(optional) an application of PAC

μSR (optional)

short overview classification

tensors : several introductions

spin : an intuitive picture

perturbation theory

double split experiment

amplitude, probability, intensity

course summaries

webinar (w11)

Hyperfine course
PAC
webinar (w11)

This is a recording of the feedback webinar of this week.