Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays connected by photons. The Brown lab is performing experiments on ion trap arrays and developing a simulator for the complete system. Project funded by IARPA MQCO program through ARO grant W911NF-10-1-0231. Collaborators: Kim (Duke), Monroe (U. Maryland), Duan (U. Michigan), Raussendorf (U. British Columbia), Blinov and Bacon (U. Washington), QIS at GTRI, Sandia, and MagiQ

Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays

Download PPTX Report

Upload
marilynn-hines
View
215
Download
0

Embed Size (px)

Citation preview

Modular Universal Scalable Ion-trap Quantum Computer

MUSIQCMulti-institution collaboration to develop a scalable quantum computer based on ion trap arrays connected by photons. The Brown lab is performing experiments on ion trap arrays and developing a simulator for the complete system. Project funded by IARPA MQCO program through ARO grant W911NF-10-1-0231.

Collaborators: Kim (Duke), Monroe (U. Maryland), Duan (U. Michigan), Raussendorf (U. British Columbia), Blinov and Bacon (U. Washington), QIS at GTRI, Sandia, and MagiQ

Page 2: Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays

Cold Molecular IonsLaser cooled atomic ions can be used to cool molecular ions to temperatures less than 1 millikelvin. The Brown lab is studying the spectroscopy and reaction dynamics of molecules at these low temperatures. This work is funded by Georgia Tech and the Blanchard Fellowship.

Collaborators: Odom (Northwestern), Sherrill (Georgia Tech)

Page 3: Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays

Computing with Thermal Classical SpinsThe challenge of computing with quantum spins (qubits) in a thermal environment can be simplified to the challenge of computing with classical spins in a thermal environment. The Brown lab is studying fault-tolerant computation and memory in this environment. This work is funded by Georgia Tech and the Blanchard Fellowship.

Collaborator: Bacon (Washington)

INSERT STRUCTURE PICTURE

Page 4: Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays

Quantum Information for Quantum ChemistryAs part of a Chemical Center for Innovation, the Brown lab is using the tools from quantum information to build new experiments and algorithms for physical chemistry. The CCI is funded by the National Science Foundation.

Collaborators: Kais (Purdue), Aspuru-Guzik (Harvard), Love (Haverford), and Lidar (U. Southern California)

000001111000011100101010100101000100010001000100001000010000100100010001

Page 5: Modular Universal Scalable Ion-trap Quantum Computer MUSIQC Multi-institution collaboration to develop a scalable quantum computer based on ion trap arrays

Optimal Resources and Architectures for Quantum aLgorithmsThe Brown lab is leading a multi-institution collaboration to develop a suite of software tools for estimating and optimizing the resource cost of performing a quantum algorithm on a real physical system. Project funded by the IARPA QCS program through ARO contract xxxxx.

Collaborators: DiVincenzo (IBM), Chong (UC Santa Barbara), Kubiatowicz (UC Berkeley), Viola (Dartmouth),Raussendorf (U. British Columbia), Bacon (U. Washington), QIS at GTRI

ORAQL