Add to ORKGtalbash, johnson1, [at] usc.edu We further consider a probe fermion in a dyonic black hole background in anti–de Sitter spacetime, at zero temperature, comparing and contrasting two distinct classes of solution that have previously appeared in the literature. Each class has members labeled by an integer n, corresponding to the nth Landau level for the fermion. Our interest is the study of the spectral function of the fermion, interpreting poles in it as indicative of quasiparticles associated with the edge of a Fermi surface in the holo-graphically dual strongly coupled theory in a background magnetic field H at finite chemical potential. Using both analytical and numerical methods, we explicitly show how one class of solutions naturally le...
Abstract Motivated by the results of Dynamical Mean Field Theory, we study the two-point function of...
We employ the novel method of AdS/CFT correspondence to study strongly correlated fermions, their gr...
Non-Fermi liquids can be studied using holographic duality. The low energy physics of a holographic ...
A class of strongly interacting many-body fermionic systems in 2 + 1-dimensional nonrelativistic con...
We study the fermionic spectral density in a strongly correlated quantum system described by a gravi...
UnrestrictedIn this dissertation, we present examples of using holography to study systems of intere...
Abstract: We describe the lowest Landau level of a quantum electron star in AdS4. In the presence of...
We consider a holographic fermionic system in which the fermions are interacting with a U(1) gauge f...
International audienceWe use holography to study the ground state of a system with interacting boson...
We construct and probe a holographic description of a state of matter that results from coupling a F...
The theoretical description of fermionic system with strong interaction is a very challenging open...
We provide new evidence that the holographic dual to a strongly coupled charged Fermi liquid has a n...
SM thankfully acknowledges the financial assistance received from Science and Engineering Research B...
With the aid of the reduced graph expansion relating different order multiple interaction vertices a...
We study the spectral functions of fermionic operators in 1+1 dimensional SU(N) Super Yang-Mills the...
Abstract Motivated by the results of Dynamical Mean Field Theory, we study the two-point function of...
We employ the novel method of AdS/CFT correspondence to study strongly correlated fermions, their gr...
Non-Fermi liquids can be studied using holographic duality. The low energy physics of a holographic ...
A class of strongly interacting many-body fermionic systems in 2 + 1-dimensional nonrelativistic con...
We study the fermionic spectral density in a strongly correlated quantum system described by a gravi...
UnrestrictedIn this dissertation, we present examples of using holography to study systems of intere...
Abstract: We describe the lowest Landau level of a quantum electron star in AdS4. In the presence of...
We consider a holographic fermionic system in which the fermions are interacting with a U(1) gauge f...
International audienceWe use holography to study the ground state of a system with interacting boson...
We construct and probe a holographic description of a state of matter that results from coupling a F...
The theoretical description of fermionic system with strong interaction is a very challenging open...
We provide new evidence that the holographic dual to a strongly coupled charged Fermi liquid has a n...
SM thankfully acknowledges the financial assistance received from Science and Engineering Research B...
With the aid of the reduced graph expansion relating different order multiple interaction vertices a...
We study the spectral functions of fermionic operators in 1+1 dimensional SU(N) Super Yang-Mills the...
Abstract Motivated by the results of Dynamical Mean Field Theory, we study the two-point function of...
We employ the novel method of AdS/CFT correspondence to study strongly correlated fermions, their gr...
Non-Fermi liquids can be studied using holographic duality. The low energy physics of a holographic ...