|
|
Cours de Base du 3ème cycle de physique en suisse romande |
|
van
Vleck : EuO |
Andrea | ||||
|
Jean-Philippe Ansermet |
|
2002-2003 |
Notions de Magnétisme |
EuO
2002 |
| |||
|
|
|
|
|
exchange
in Q. dots |
Feliciano | |||
|
|
|
|
|
unquenching
in NiO |
| |||
|
1 |
2 |
3 |
4 |
5 |
6 |
7 |
g-factor
of quantum dots |
|
|
24.oct |
31.oct |
07.nov |
14.nov |
21.nov |
28.nov |
05.déc |
g-factor
of 2D holes |
|
|
aniso couches
minces |
Philippe | |||||||
|
objectifs |
intra-atomique |
Curie |
dipolaire |
Stoner |
équations
maîtresses |
principe |
Co/Pt
nanostructures |
Philippe |
|
science? |
hamiltonien de
spin |
quenching |
ex. pour
3d |
F. liq.
Theory |
bilan
détaillé |
RKKY |
magnetic
C60? |
Xavier |
|
savoir,
comprendre |
ex :
EuO |
g-factor |
syst. Cubique |
Hubbard |
réponse
linéaire |
historique |
La-SrB6 below
Stoner |
Leonid |
|
expériences
personnelles |
ex : pol. él. Cœur |
van Vleck
susc. |
van der
Laan |
fluctuation-dissipation |
couches
minces |
non-Stoner
Gd |
| |
|
autres
cours |
Heitler-London |
Kramers |
terre
rare |
spin
fluctuations |
|
GaMnAs |
| |
|
littérature |
superéchange |
Jahn-Teller |
|
Callen-Welton |
Chritian | |||
|
|
Dzialoshinskii-Moriya |
|
vérification
expt.FD |
| ||||
|
|
magnetic
C60? |
|
superlattices |
Christophe | ||||
|
faire
connaissance |
van Vleck :
EuO |
unquenching in
NiO |
aniso couches
minces |
La-SrB6 below
Stoner |
Callen-Welton |
superlattices |
exchange
biasing |
Thomas |
|
qui, quoi, où
? |
EuO
2002 |
g-factor of quantum
dots |
Co/Pt
nanostructures |
non-Stoner
Gd |
vérification
expt.FD |
exchange
biasing |
bain
grand canonique |
Leonid |
|
|
exchange in Q.
dots |
g-factor of 2D
holes |
|
GaMnAs |
|
|
Q.
AF (NMR evidence) |
Violetta |
|
|
|
|
NMR Hi-Tc
supercond. |
Violetta | ||||
|
8 |
9 |
10 |
11 |
12 |
13 |
14 |
magnon thermal
cond. |
Laurent
G. |
|
12.déc |
19.déc |
09.janv |
16.janv |
23.janv |
30.janv |
06.févr |
damping
by surfaces |
|
|
current
induced S.W. |
Andrea | |||||||
|
spin
isolé |
modes
magnétostatiques |
AMR |
thermocinétique |
échange |
modèle thermo
polarons |
phénoménologie |
discovery
GMR |
Giuseppe |
|
syst à 2
nivaux |
magnons |
GMR-TMR-BMR |
Boltzmann |
spin-orbit |
double échange
1D |
modèle électron
libre |
re-discovery
CMR |
Laurent |
|
BPP
simplifié |
semi-classique |
CMR |
extension avec
spin |
ex : relaxation
spin-réseau |
ordre
orbital |
effet
Faraday |
Mazin
: spin pol. ? |
|
|
|
Holstein-Primakov |
magneto-impédance |
|
électrons-magnons |
stripes |
descr.
Quantique |
tunnel into oxide
ferromag |
Thomas |
|
|
|
|
|
|
cond
el. Spin
and mag damp |
Daniel | ||
|
|
|
|
|
|
magnetic
damping |
Santiago | ||
|
bain grand
canonique |
magnon thermal
cond. |
discovery
GMR |
Mazin : spin pol.
? |
cond el. spin, mag
damp |
polarons in
manganates |
Co atomic
wires |
ferro-semicon
spin inject |
thomas |
|
Q. AF (NMR
evidence) |
damping by
surfaces |
re-discovery
CMR |
tunnel into oxide
ferromag |
magnetic
damping |
|
mag dynamics by
X-ray… |
polarons in
manganates |
Dominique |
|
NMR Hi-Tc supercond. |
current induced
S.W. |
|
|
ferro-semicon spin
inject |
|
|
Co
atomic wires |
Daniel |
|
|
|
mag
dynamics by X-ray… |
Santiago | |||||
|
|
|
| ||||||
|
|
|
|
|
|
|
|
|
|