Figure 1. (A) Lattice model for realising the deconfined quantum phase transition. (B) The phase diagram for the square lattice SU(N) model. Dots represent the quantum phase transition points. Red ...
Random polynomials, whose coefficients or zeros are drawn from probability distributions, provide a fertile ground for understanding complex systems and statistical behaviours. A central theme in this ...
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Physicists uncover hidden order in the quantum world through deconfined quantum critical points
In the intricate world of quantum physics, where particles interact in ways that seem to defy the standard rules of space and time, lies a profound mystery that continues to captivate scientists: the ...
A recent study has unraveled some of the secrets concealed within the entangled web of quantum systems. In the intricate world of quantum physics, where particles interact in ways that seem to defy ...
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