Technical Papers Alex Mack Technical Papers Alex Mack

PsiQuantum and Boehringer Ingelheim: Fault-tolerant quantum computation of molecular observables

Over the past three decades significant reductions have been made to the cost of estimating ground-state energies of molecular Hamiltonians with quantum computers. However, comparatively little attention has been paid to estimating the expectation values of other observables with respect to said ground states, which is important for many industrial applications.

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PsiQuantum and Mercedes-Benz: counting qubits for better batteries

The widespread adoption of electric vehicles rests on developing faster charging, longer lasting battery technology – the critical enabler for transitioning away from internal combustion engines. PsiQuantum has been working with Mercedes Benz to assess just how advanced a quantum computer must be to revolutionize Lithium-ion (Li-ion) battery design.

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Optical quantum computing

In 2001, all-optical quantum computing became feasible with the discovery that scalable quantum computing is possible using only single-photon sources, linear optical elements, and single-photon detectors.

Author: Jeremy O'Brien, Science Vol. 318, Issue 5856 - Published: Dec 07, 2007

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Shor's quantum factoring algorithm on a photonic chip

Shor’s quantum factoring algorithm finds the prime factors of a large number exponentially faster than any other known method, a task that lies at the heart of modern information security, particularly on the Internet. This algorithm requires a quantum computer, a device that harnesses the massive parellism afforded by quantum superposition and entanglement of quantum bits (or qubits). We report the demonstration of a compiled version of Shor’s algorithm on an integrated waveguide silica-on-silicon chip that guides four single-photon qubits through the computation to factor 15.

Author: Politi et al. Science 04 Sep 2009, Vol. 325, Issue 5945, pp. 1221 - Published: Sep 04, 2009
All authors: Alberto Politi, Jonathan C. F. Matthews, Jeremy L. O'Brien

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Technical Papers Alex Mack Technical Papers Alex Mack

High-fidelity operation of quantum photonic circuits

We demonstrate photonic quantum circuits that operate at the stringent levels that will be required for future quantum information science and technology. These circuits are fabricated from silica-on-silicon waveguides forming directional couplers and interferometers.

Author: Laing et al. Appl. Phys. Lett. 97, 211109 - Published: Jun 17, 2010
All authors: Anthony Laing, Alberto Peruzzo, Alberto Politi, Maria Rodas Verde, Matthaeus Halder, Timothy C. Ralph, Mark G. Thompson, Jeremy L. O’Brien

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Generating, manipulating and measuring entanglement and mixture with a reconfigurable photonic circuit

Entanglement is the quintessential quantum-mechanical phenomenon understood to lie at the heart of future quantum technologies and the subject of fundamental scientific investigations.

Author: Shadbolt et al. Nature Photon 6, 45–49 - Published: Dec 11, 2011
All authors: P. J. Shadbolt, M. R. Verde, A. Peruzzo, A. Politi, A. Laing, M. Lobino, J. C. F. Matthews, M. G. Thompson, J. L. O'Brien

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Technical Papers Alex Mack Technical Papers Alex Mack

A variational eigenvalue solver on a photonic quantum processor

Quantum computers promise to efficiently solve important problems that are intractable on a conventional computer. For quantum systems, where the physical dimension grows exponentially, finding the eigenvalues of certain operators is one such intractable problem and remains a fundamental challenge.

Author: Peruzzo et al. Nat Commun 5, 4213 - Published: Jun 23, 2014
All authors: Alberto Peruzzo, Jarrod McClean, Peter Shadbolt, Man-Hong Yung, Xiao-Qi Zhou, Peter J. Love, Alán Aspuru-Guzik, Jeremy L. O’Brien

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Universal linear optics

Encoding and manipulating information in the states of single photons provides a potential platform for quantum computing and communication.

Author: Carolan et al. Science Vol. 349, Issue 6249, pp. 711-716 - Published: Aug 14, 2015
All authors: Jacques Carolan, Christopher Harrold, Chris Sparrow, Enrique Martín-López, Nicholas J. Russell, Joshua W. Silverstone, Peter J. Shadbolt, Nobuyuki Matsuda, Manabu Oguma, Mikitaka Itoh, Graham D. Marshall, Mark G. Thompson, Jonathan C. F. Matthews, Toshikazu Hashimoto, Jeremy L. O’Brien, Anthony Laing

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Technical Papers Alex Mack Technical Papers Alex Mack

Chip-to-chip quantum photonic interconnect by path-polarization interconversion

Integrated photonics has enabled much progress toward quantum technologies. Many applications, e.g., quantum communication, sensing, and distributed cloud quantum computing, require coherent photonic interconnection between separate on-chip subsystems.

Author: Wang et al. Optica Vol. 3, Issue 4, pp. 407-413 - Published: Sep 26, 2015
All authors: Jianwei Wang, Damien Bonneau, Matteo Villa, Joshua W. Silverstone, Raffaele Santagati, Shigehito Miki, Taro Yamashita, Mikio Fujiwara, Masahide Sasaki, Hirotaka Terai, Michael G. Tanner, Chandra M. Natarajan, Robert H. Hadfield, Jeremy L. O’Brien, Mark G. Thompson

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Technical Papers Alex Mack Technical Papers Alex Mack

Large-scale silicon quantum photonics implementing arbitrary two-qubit processing

Photonics is a promising platform for implementing universal quantum information processing. Its main challenges include precise control of massive circuits of linear optical components and effective implementation of entangling operations on photons.

Author: Qiang et al. Nature Photonics volume 12, pages 534–539 - Published: Aug 20, 2018
All authors: Xiaogang Qiang, Xiaoqi Zhou, Jianwei Wang, Callum M. Wilkes, Thomas Loke, Sean O’Gara, Laurent Kling, Graham D. Marshall, Raffaele Santagati, Timothy C. Ralph, Jingbo B. Wang, Jeremy L. O’Brien, Mark G. Thompson, Jonathan C. F. Matthews

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Programmable four-photon graph states on a silicon chip

Future quantum computers require a scalable architecture on a scalable technology—one that supports millions of high-performance components. Measurement-based protocols, using graph states, represent the state of the art in architectures for optical quantum computing.

Author: Adcock et al. Nature Communications volume 10, Article number: 3528 - Published: Aug 06, 2019
All authors: Jeremy C. Adcock, Caterina Vigliar, Raffaele Santagati, Joshua W. Silverstone, Mark G. Thompson

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Integrated photonic quantum technologies

Quantum technologies comprise an emerging class of devices capable of controlling superposition and entanglement of quantum states of light or matter, to realize fundamental performance advantages over ordinary classical machines.

Author: Wang et al. Nature Photonics volume 14, pages 273–284 - Published: Oct 21, 2019
All authors: Jianwei Wang, Fabio Sciarrino, Anthony Laing, Mark G. Thompson

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Chip-to-chip quantum teleportation and multi-photon entanglement in silicon

Exploiting semiconductor fabrication techniques, natural carriers of quantum information such as atoms, electrons, and photons can be embedded in scalable integrated devices. Integrated optics provides a versatile platform for large-scale quantum information processing and transceiving with photons. Scaling up the integrated devices for quantum applications requires highperformance single-photon generation and photonic qubit-qubit entangling operations.

Author: Llewellyn et al. - Published: Nov 15, 2019
All authors: Daniel Llewellyn, Yunhong Ding, Imad I. Faruque, Stefano Paesani, Davide Bacco, Raffaele Santagati, Yan-Jun Qian, Yan Li, Yun-Feng Xiao, Marcus Huber, Mehul Malik, Gary F. Sinclair, Xiaoqi Zhou, Karsten Rottwitt, Jeremy L. O Brien, John G. Rarity, Qihuang Gong, Leif K. Oxenlowe, Jianwei Wang, Mark G. Thompson

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Technical Papers Alex Mack Technical Papers Alex Mack

Error protected qubits in a silicon photonic chip

General purpose quantum computers can, in principle, entangle a number of noisy physical qubits to realise composite qubits protected against errors. Architectures for measurement-based quantum computing intrinsically support error-protected qubits and are the most viable approach for constructing an all-photonic quantum computer.

Author: Vigliar et al. - Published: Sep 17, 2020
All authors: Caterina Vigliar, Stefano Paesani, Yunhong Ding, Jeremy C. Adcock, Jianwei Wang, Sam Morley-Short, Davide Bacco, Leif K. Oxenløwe, Mark G. Thompson, John G. Rarity, Anthony Laing

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