Add to ORKGDespite more than three decades of tireless efforts, the nature of high-temperature superconductivity (HTS) remains a mystery. A recently proposed long-distance effective field theory, accounting for all the universal features of HTS and the equally mysterious pseudogap phase, related them to the coexistence of a charge condensate with a condensate of dyons, particles carrying both magnetic and electric charges. Central to this picture are magnetic monopoles emerging in the proximity of the topological quantum superconductor-insulator transition (SIT) that dominates the HTS phase diagram. However, the mechanism responsible for spatially localized electron pairing, characteristic of HTS, remains a puzzle. Here we show that real-space, locali...
The current status of the theoretical efforts towards understanding the microscopic mechanism behind...
The antagonistic interplay of antiferromagnetism (AF) and superconductivity (SC), recently discovere...
The symmetry of Cooper pairs is central to constructing a superconducting state. The demonstration o...
Superinsulators (SI) are a new topological state of matter, predicted by our collaboration and exper...
Abstract Since the publication of this work, it has become a canonical work on the theory of high-t...
A resonating valence bond RVB approach is taken to demonstrate formation of real-space Cooper pairs ...
We review the present theoretical understanding and predictions for systems exhibiting real-space pa...
In this chapter we give a selective review of our work on the role of electron correlation in the th...
International audienceHigh Tc cuprate superconductors are characterized by two robust features: thei...
In this chapter we give a selective review of our work on the role of electron correlation in the th...
High temperature superconductivity requires real space spin-singlet pairing of charge carriers. We a...
Mobile holes in an antiferromagnetic insulator form a slowly fluctuating array of quasi one-dimensio...
Superconductivity describes the spectacular ability of electrons in some materials at low temperatur...
Abstract: The pairing of electrons underlies the formation of a superconducting state with zero ele...
We report systematic investigations of the magnetic superconducting properties of the new supercondu...
The current status of the theoretical efforts towards understanding the microscopic mechanism behind...
The antagonistic interplay of antiferromagnetism (AF) and superconductivity (SC), recently discovere...
The symmetry of Cooper pairs is central to constructing a superconducting state. The demonstration o...
Superinsulators (SI) are a new topological state of matter, predicted by our collaboration and exper...
Abstract Since the publication of this work, it has become a canonical work on the theory of high-t...
A resonating valence bond RVB approach is taken to demonstrate formation of real-space Cooper pairs ...
We review the present theoretical understanding and predictions for systems exhibiting real-space pa...
In this chapter we give a selective review of our work on the role of electron correlation in the th...
International audienceHigh Tc cuprate superconductors are characterized by two robust features: thei...
In this chapter we give a selective review of our work on the role of electron correlation in the th...
High temperature superconductivity requires real space spin-singlet pairing of charge carriers. We a...
Mobile holes in an antiferromagnetic insulator form a slowly fluctuating array of quasi one-dimensio...
Superconductivity describes the spectacular ability of electrons in some materials at low temperatur...
Abstract: The pairing of electrons underlies the formation of a superconducting state with zero ele...
We report systematic investigations of the magnetic superconducting properties of the new supercondu...
The current status of the theoretical efforts towards understanding the microscopic mechanism behind...
The antagonistic interplay of antiferromagnetism (AF) and superconductivity (SC), recently discovere...
The symmetry of Cooper pairs is central to constructing a superconducting state. The demonstration o...