Flow alignment in nematic fluids creates bend-splay walls that lower defect nucleation thresholds and prevent recombination, replacing the reversible BKT transition with persistent unbound defects.
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A mass gap in the passive nanowire lifts the exact cancellation of plasmon modes generated by quantum phase slips in the active wire, yielding a finite Coulomb drag voltage that increases from weak values in short wires to a maximum set by mutual capacitance in long wires.
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Flow Coupling Alters Topological Phase Transition in Nematic Liquid Crystals
Flow alignment in nematic fluids creates bend-splay walls that lower defect nucleation thresholds and prevent recombination, replacing the reversible BKT transition with persistent unbound defects.
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Mass-induced Coulomb drag in capacitively coupled superconducting nanowires
A mass gap in the passive nanowire lifts the exact cancellation of plasmon modes generated by quantum phase slips in the active wire, yielding a finite Coulomb drag voltage that increases from weak values in short wires to a maximum set by mutual capacitance in long wires.