@article{bauer2014analyzing, author = {Bauer, Bela and Nayak, Dr. Chetan}, title = {Analyzing many-body localization with a quantum computer}, year = {2014}, month = {November}, abstract = {Many-body localization, the persistence against electron-electron interactions of the localization of states with nonzero excitation energy density, poses a challenge to current methods of theoretical and numerical analyses. Numerical simulations have so far been limited to a small number of sites, making it difficult to obtain reliable statements about the thermodynamic limit. In this paper, we explore the ways in which a relatively small quantum computer could be leveraged to study many-body localization. We show that, in addition to studying time evolution, a quantum computer can, in polynomial time, obtain eigenstates at arbitrary energies to sufficient accuracy that localization can be observed. The limitations of quantum measurement, which preclude the possibility of directly obtaining the entanglement entropy, make it difficult to apply some of the definitions of many-body localization used in the recent literature. We discuss alternative tests of localization that can be implemented on a quantum computer.}, publisher = {American Physical Society}, url = {http://approjects.co.za/?big=en-us/research/publication/analyzing-many-body-localization-quantum-computer/}, pages = {41021}, journal = {Physical Review X}, volume = {4}, chapter = {4}, }