Shivaji Sondhi

AKLT Models with Quantum Spin Glass Ground States

(2010)

Authors:

CR Laumann, SA Parameswaran, SL Sondhi, F Zamponi

Random quantum satisfiabiilty

Quantum Information and Computation 10:1-2 (2010) 1-15

Authors:

CR Laumann, R Moessner, A Scardicchio, SL Sondhi

Abstract:

Alongside the effort underway to build quantum computers, it is important to better understand which classes of problems they will find easy and which others even they will find intractable. We study random ensembles of the QMA1-complete quantum satisfiability (QSAT) problem introduced by Bravyi [1]. QSAT appropriately generalizes the NP-complete classical satisfiability (SAT) problem. We show that, as the density of clauses/projectors is varied, the ensembles exhibit quantum phase transitions between phases that are satisfiable and unsatisfiable. Remarkably, almost all instances of QSAT for any hypergraph exhibit the same dimension of the satisfying manifold. This establishes the QSAT decision problem as equivalent to a, potentially new, graph theoretic problem and that the hardest typical instances are likely to be localized in a bounded range of clause density. © Rinton Press.

Random quantum satisfiability

Quantum Information and Computation Rinton Press 10:1&2 (2010) 1-16

Authors:

CR Laumann, R Moessner, A Scarddichio, SL Sondhi

On quantum spin glasses with finite connectivity: Cavity method and applications

Journal of Physics Conference Series IOP Publishing 143:1 (2009) 012015

Authors:

C Laumann, A Scardicchio, SL Sondhi

Devil’s staircases and supersolids in a one-dimensional dipolar Bose gas

Physical Review B American Physical Society (APS) 80:17 (2009) 174519

Authors:

FJ Burnell, Meera M Parish, NR Cooper, SL Sondhi