Personal Information
Organización/Lugar de trabajo
Didcot, Oxfordshire United Kingdom
Ocupación
SEPnet Fellow
Sector
Education
Sitio web
http://www.cond-mat.org
Acerca de
Dr. Quintanilla is a theorist working on quantum condensed matter and materials physics. Within this broad area, he has contributed to a number of problems spanning superconductivity, strong correlations, ultracold gases and complex networks.
The range of topics is quite broad and often cuts across sub-disciplines. A wide range of techniques are deployed as the need arises: semiclassics, BCS theory, numerical diagonalisation, Bethe ansatz-based techniques, density functional theory, bosonisation, group theory, variational methods, etc. Much of the work is carried out in close collaboration with experimentalists.
Current research topics include:
* Spontaneous Fermi surface deforma...
Etiquetas
physics
superconductivity
superconductors
condensed matter
theory
strong correlations
triplet pairing
muon spin rotation
time-reversal symmetry breaking
condensed matter physics
noncentrosymmetric superconductors
cold atoms
centrosymmetric superconductors
quantum physics
bcs theory
topological transitions
topological matter
double occupancy
mott insulator
sces
optical lattices
hubbard model
materials
symmetry analysis
landau theory
research
group theory
condensed matter theory
neutron scattering
nonunitary pairing
quantum phase transitions
theoretical physics
nodal quasiparticles
bethe ansatz
harmonic traps
fermions
cambridge
luttinger liquid
atoms
sepnet
musr
experiment
symmetry
lanic2
ginzburg-landau theory
phenomenological
first principles
ab initio
int pairing
unconventional superconductors
ai
artificial intelligence
machine learning
josephson current
molecular nanomagnets
conference
entanglement
pnictides
equal spin pairing
sr2ruo4
upt3
two-gap superconductivity
laniga2
topological superconductors
max planck institute
hubbard theory consortium
university of kent
research seminar
li2pt3b
li2pd3b
slinglet-triplet mixing
li2pdxpt3−xb
low-temperature physics
specific heat measurements
quantum matter
strongly-correlated electrons
one-dimensional systems
ions
muons
symmetry breaking
solids
noncentrosymmetric
nonunitary
Ver más
Presentaciones
(20)Recomendaciones
(2)Thermodynamic signatures of topological transitions in nodal superconductors
Jorge Quintanilla
•
Hace 10 años
Talk bristol uk-nl_2013_v01_for_web
Jorge Quintanilla
•
Hace 10 años
Personal Information
Organización/Lugar de trabajo
Didcot, Oxfordshire United Kingdom
Ocupación
SEPnet Fellow
Sector
Education
Sitio web
http://www.cond-mat.org
Acerca de
Dr. Quintanilla is a theorist working on quantum condensed matter and materials physics. Within this broad area, he has contributed to a number of problems spanning superconductivity, strong correlations, ultracold gases and complex networks.
The range of topics is quite broad and often cuts across sub-disciplines. A wide range of techniques are deployed as the need arises: semiclassics, BCS theory, numerical diagonalisation, Bethe ansatz-based techniques, density functional theory, bosonisation, group theory, variational methods, etc. Much of the work is carried out in close collaboration with experimentalists.
Current research topics include:
* Spontaneous Fermi surface deforma...
Etiquetas
physics
superconductivity
superconductors
condensed matter
theory
strong correlations
triplet pairing
muon spin rotation
time-reversal symmetry breaking
condensed matter physics
noncentrosymmetric superconductors
cold atoms
centrosymmetric superconductors
quantum physics
bcs theory
topological transitions
topological matter
double occupancy
mott insulator
sces
optical lattices
hubbard model
materials
symmetry analysis
landau theory
research
group theory
condensed matter theory
neutron scattering
nonunitary pairing
quantum phase transitions
theoretical physics
nodal quasiparticles
bethe ansatz
harmonic traps
fermions
cambridge
luttinger liquid
atoms
sepnet
musr
experiment
symmetry
lanic2
ginzburg-landau theory
phenomenological
first principles
ab initio
int pairing
unconventional superconductors
ai
artificial intelligence
machine learning
josephson current
molecular nanomagnets
conference
entanglement
pnictides
equal spin pairing
sr2ruo4
upt3
two-gap superconductivity
laniga2
topological superconductors
max planck institute
hubbard theory consortium
university of kent
research seminar
li2pt3b
li2pd3b
slinglet-triplet mixing
li2pdxpt3−xb
low-temperature physics
specific heat measurements
quantum matter
strongly-correlated electrons
one-dimensional systems
ions
muons
symmetry breaking
solids
noncentrosymmetric
nonunitary
Ver más