Add to ORKGMonte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deconfinement occurs through a weak first-order phase transition, in agreement with Ginzburg- Landau theory. Wilson renormalization argument in combination with the absence of the data collapse even in the regime of weak interaction between the spinons casts a serious doubt on the possibility of the continuous deconfinement transition. We also argue that if a continuous deconfined criticality does exist on the phase diagram, its nature is analogous, in a certain precise sense, to that of the XY universality clas
In this work it is studied a type of quantum phase transitions beyond the Landau-Ginzburg-Wilson (LG...
We perform a comparative Monte Carlo study of the easy-plane deconfined critical point (DCP) action ...
We address a mean-field zero-temperature Ginzburg–Landau, or 4, model subjected to quenched additive...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
The Landau-Ginzburg-Wilson (LGW) paradigm is the backbone of the modern understanding of critical ph...
Continuous phase transitions in equilibrium statistical mechanics were successfully described 50 yea...
The Landau-Ginzburg-Wilson (LGW) paradigm is the backbone of the modern understanding of critical ph...
The quantum ferromagnetic transition of itinerant electrons is considered. It is shown that the Land...
In this work it is studied a type of quantum phase transitions beyond the Landau-Ginzburg-Wilson (LG...
We perform a comparative Monte Carlo study of the easy-plane deconfined critical point (DCP) action ...
We address a mean-field zero-temperature Ginzburg–Landau, or 4, model subjected to quenched additive...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
Monte Carlo study of the deconfined critical action phase diagram reveals a region where spinon deco...
The Landau-Ginzburg-Wilson (LGW) paradigm is the backbone of the modern understanding of critical ph...
Continuous phase transitions in equilibrium statistical mechanics were successfully described 50 yea...
The Landau-Ginzburg-Wilson (LGW) paradigm is the backbone of the modern understanding of critical ph...
The quantum ferromagnetic transition of itinerant electrons is considered. It is shown that the Land...
In this work it is studied a type of quantum phase transitions beyond the Landau-Ginzburg-Wilson (LG...
We perform a comparative Monte Carlo study of the easy-plane deconfined critical point (DCP) action ...
We address a mean-field zero-temperature Ginzburg–Landau, or 4, model subjected to quenched additive...