Search Results - "Gatterman, Thomas"

Characterizing a non-equilibrium phase transition on a quantum computer by Chertkov, Eli, Cheng, Zihan, Potter, Andrew C., Gopalakrishnan, Sarang, Gatterman, Thomas M., Gerber, Justin A., Gilmore, Kevin, Gresh, Dan, Hall, Alex, Hankin, Aaron, Matheny, Mitchell, Mengle, Tanner, Hayes, David, Neyenhuis, Brian, Stutz, Russell, Foss-Feig, Michael

“…Quantum systems subject to driving and dissipation display distinctive non-equilibrium phenomena relevant to condensed matter, quantum optics, metrology and…”
Get full text

Topological order from measurements and feed-forward on a trapped ion quantum computer by Iqbal, Mohsin, Tantivasadakarn, Nathanan, Gatterman, Thomas M., Gerber, Justin A., Gilmore, Kevin, Gresh, Dan, Hankin, Aaron, Hewitt, Nathan, Horst, Chandler V., Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Vishwanath, Ashvin, Foss-Feig, Michael, Verresen, Ruben, Dreyer, Henrik

“…Quantum systems evolve in time in one of two ways: through the Schrödinger equation or wavefunction collapse. So far, deterministic control of quantum…”
Get full text

Fault-tolerant one-bit addition with the smallest interesting color code by Wang, Yang, Simsek, Selwyn, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Criger, Ben

“…Fault-tolerant operations based on stabilizer codes are the state of the art in suppressing error rates in quantum computations. Most such codes do not permit…”
Get full text

Evidence of scaling advantage for the quantum approximate optimization algorithm on a classically intractable problem by Shaydulin, Ruslan, Li, Changhao, Chakrabarti, Shouvanik, DeCross, Matthew, Herman, Dylan, Kumar, Niraj, Larson, Jeffrey, Lykov, Danylo, Minssen, Pierre, Sun, Yue, Alexeev, Yuri, Dreiling, Joan M, Gaebler, John P, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Hu, Shaohan, Johansen, Jacob, Matheny, Mitchell, Mengle, Tanner, Mills, Michael, Moses, Steven A, Neyenhuis, Brian, Siegfried, Peter, Yalovetzky, Romina, Pistoia, Marco

“…The quantum approximate optimization algorithm (QAOA) is a leading candidate algorithm for solving optimization problems on quantum computers. However, the…”
Get full text

Experimental Demonstration of Break-Even for the Compact Fermionic Encoding by Nigmatullin, Ramil, Hemery, Kevin, Ghanem, Khaldoon, Moses, Steven, Gresh, Dan, Siegfried, Peter, Mills, Michael, Gatterman, Thomas, Hewitt, Nathan, Granet, Etienne, Dreyer, Henrik

“…The utility of solving the Fermi-Hubbard model has been estimated in the billions of dollars. Digital quantum computers can in principle address this task, but…”
Get full text

Experiments with the 4D Surface Code on a QCCD Quantum Computer by Berthusen, Noah, Dreiling, Joan, Foltz, Cameron, Gaebler, John P, Gatterman, Thomas M, Gresh, Dan, Hewitt, Nathan, Mills, Michael, Moses, Steven A, Neyenhuis, Brian, Siegfried, Peter, Hayes, David

“…Single-shot quantum error correction has the potential to speed up quantum computations by removing the need for multiple rounds of syndrome extraction in…”
Get full text

Qutrit Toric Code and Parafermions in Trapped Ions by Iqbal, Mohsin, Lyons, Anasuya, Lo, Chiu Fan Bowen, Tantivasadakarn, Nathanan, Dreiling, Joan, Foltz, Cameron, Gatterman, Thomas M, Gresh, Dan, Hewitt, Nathan, Holliman, Craig A, Johansen, Jacob, Neyenhuis, Brian, Matsuoka, Yohei, Mills, Michael, Moses, Steven A, Siegfried, Peter, Vishwanath, Ashvin, Verresen, Ruben, Dreyer, Henrik

“…The development of programmable quantum devices can be measured by the complexity of manybody states that they are able to prepare. Among the most significant…”
Get full text

Fault-Tolerant One-Bit Addition with the Smallest Interesting Colour Code by Wang, Yang, Simsek, Selwyn, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Criger, Ben

“…Science Advances 10, 29 (2024) Fault-tolerant operations based on stabilizer codes are the state of the art in suppressing error rates in quantum computations…”
Get full text

Benchmarking logical three-qubit quantum Fourier transform encoded in the Steane code on a trapped-ion quantum computer by Mayer, Karl, Ryan-Anderson, Ciarán, Brown, Natalie, Durso-Sabina, Elijah, Baldwin, Charles H, Hayes, David, Dreiling, Joan M, Foltz, Cameron, Gaebler, John P, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Johansen, Jacob, Mengle, Tanner, Mills, Michael, Moses, Steven A, Siegfried, Peter E, Neyenhuis, Brian, Pino, Juan, Stutz, Russell

“…We implement logically encoded three-qubit circuits for the quantum Fourier transform (QFT), using the [[7,1,3]] Steane code, and benchmark the circuits on the…”
Get full text

Probing critical states of matter on a digital quantum computer by Haghshenas, Reza, Chertkov, Eli, DeCross, Matthew, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Hayes, David, Foss-Feig, Michael

“…Although quantum mechanics underpins the microscopic behavior of all materials, its effects are often obscured at the macroscopic level by thermal…”
Get full text

Topological Order from Measurements and Feed-Forward on a Trapped Ion Quantum Computer by Iqbal, Mohsin, Tantivasadakarn, Nathanan, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hankin, Aaron, Hewitt, Nathan, Horst, Chandler V, Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Vishwanath, Ashvin, Foss-Feig, Michael, Verresen, Ruben, Dreyer, Henrik

“…Nature Communications Physics 7, 205 (2024) Quantum systems evolve in time in one of two ways: through the Schr\"odinger equation or wavefunction collapse. So…”
Get full text

Evidence of Scaling Advantage for the Quantum Approximate Optimization Algorithm on a Classically Intractable Problem by Shaydulin, Ruslan, Li, Changhao, Chakrabarti, Shouvanik, DeCross, Matthew, Herman, Dylan, Kumar, Niraj, Larson, Jeffrey, Lykov, Danylo, Minssen, Pierre, Sun, Yue, Alexeev, Yuri, Dreiling, Joan M, Gaebler, John P, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hewitt, Nathan, Horst, Chandler V, Hu, Shaohan, Johansen, Jacob, Matheny, Mitchell, Mengle, Tanner, Mills, Michael, Moses, Steven A, Neyenhuis, Brian, Siegfried, Peter, Yalovetzky, Romina, Pistoia, Marco

“…Sci. Adv. 10 (22), eadm6761 (2024) The quantum approximate optimization algorithm (QAOA) is a leading candidate algorithm for solving optimization problems on…”
Get full text

Characterizing a non-equilibrium phase transition on a quantum computer by Chertkov, Eli, Cheng, Zihan, Potter, Andrew C, Gopalakrishnan, Sarang, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hall, Alex, Hankin, Aaron, Matheny, Mitchell, Mengle, Tanner, Hayes, David, Neyenhuis, Brian, Stutz, Russell, Foss-Feig, Michael

“…Nat. Phys. (2023) At transitions between phases of matter, physical systems can exhibit universal behavior independent of their microscopic details. Probing…”
Get full text

Theory of mirror benchmarking and demonstration on a quantum computer by Mayer, Karl, Hall, Alex, Gatterman, Thomas, Halit, Si Khadir, Lee, Kenny, Bohnet, Justin, Gresh, Dan, Hankin, Aaron, Gilmore, Kevin, Gerber, Justin, Gaebler, John

“…A new class of protocols called mirror benchmarking was recently proposed to measure the system-level performance of quantum computers. These protocols involve…”
Get full text

The computational power of random quantum circuits in arbitrary geometries by DeCross, Matthew, Haghshenas, Reza, Liu, Minzhao, Rinaldi, Enrico, Gray, Johnnie, Alexeev, Yuri, Baldwin, Charles H, Bartolotta, John P, Bohn, Matthew, Chertkov, Eli, Cline, Julia, Colina, Jonhas, DelVento, Davide, Dreiling, Joan M, Foltz, Cameron, Gaebler, John P, Gatterman, Thomas M, Gilbreth, Christopher N, Giles, Joshua, Gresh, Dan, Hall, Alex, Hankin, Aaron, Hansen, Azure, Hewitt, Nathan, Hoffman, Ian, Holliman, Craig, Hutson, Ross B, Jacobs, Trent, Johansen, Jacob, Lee, Patricia J, Lehman, Elliot, Lucchetti, Dominic, Lykov, Danylo, Madjarov, Ivaylo S, Mathewson, Brian, Mayer, Karl, Mills, Michael, Niroula, Pradeep, Pino, Juan M, Roman, Conrad, Schecter, Michael, Siegfried, Peter E, Tiemann, Bruce G, Volin, Curtis, Walker, James, Shaydulin, Ruslan, Pistoia, Marco, Moses, Steven. A, Hayes, David, Neyenhuis, Brian, Stutz, Russell P, Foss-Feig, Michael

“…Empirical evidence for a gap between the computational powers of classical and quantum computers has been provided by experiments that sample the output…”
Get full text

Experimental demonstration of the advantage of adaptive quantum circuits by Foss-Feig, Michael, Tikku, Arkin, Lu, Tsung-Cheng, Mayer, Karl, Iqbal, Mohsin, Gatterman, Thomas M, Gerber, Justin A, Gilmore, Kevin, Gresh, Dan, Hankin, Aaron, Hewitt, Nathan, Horst, Chandler V, Matheny, Mitchell, Mengle, Tanner, Neyenhuis, Brian, Dreyer, Henrik, Hayes, David, Hsieh, Timothy H, Kim, Isaac H

“…Adaptive quantum circuits employ unitary gates assisted by mid-circuit measurement, classical computation on the measurement outcome, and the conditional…”
Get full text