From linear optical quantum computing to heisenberglimited interferometry hwang lee, pieter kok, colin p williams et al. For example, one model of linear optical quantum computing, the klm model, is universal for quantum computing, and another model, the boson samplingbased model, is believed to be nonuniversal for quantum computing yet. The use of photodetection can provide efficient nonlinear interactions between photons at the singlephoton level, which is technically problematic otherwise. Jun 16, 2017 ordinarily, light particles photons dont interact. Likewise, in the linear optics model, any unitary transformation on m modes can be decomposed into a product of. He suggested in 1982 that quantum computers might have fundamentally more powerful computational abilities than conventional ones basing his conjecture on the extreme difficulty encountered in computing the result of quantum mechanical processes on conventional computers, in.
The protocol by knill, laflamme, and milburn nature 409, 46 2001 explicitly demonstrates that. Linear optics with photon counting is a prominent candidate for practical quantum computing. Linear optical quantum computing with photonic qubits pieter kok department of materials, oxford university, oxford ox1 3ph, united kingdom and hewlettpackard laboratories, filton road stoke gifford, bristol bs34 8qz, united kingdom w. From linear optical quantum computing to heisenberglimited interferometry hwang lee, pieter kok, colin p. Linear optical quantum computing linear optics can be used to construct 2 x csign cnot gate and a quantum computer. Contents linear optics with photon counting is a prominent candidate for practical quantum computing. Loqc uses photons as information carriers, mainly uses linear optical elements, or optical instruments to process quantum information, and uses photon detectors and quantum memories to detect and store quantum information. Logic gates for linear optical quantum computation loqc. Lovettintroduction to optical quantum information processing.
The control and target qubits encoded in polarization, say, together with two auxiliary photons, enter an optical network of bss, where the four photons paths are combined. Five lectures on optical quantum computing pieter kok. In particular knill, laflamme, and milburn klm 4 launched the field of linear optics quantum computing loqc by showing that deterministic singlephoton sources and highefficiency singlephoton detectors allow the realization of scalable, probabilistic quantum computation purely with linear optical elements. Nogo theorem for passive singlerail linear optical. In this paper we tailor the joint spectral wavefunction of photons created in parametric downconversion by engineering the nonlinearity profile of a poled crystal.
Why photonic encoding, or why linearoptical quantum computing. Citeseerx linear optical quantum computing with photonic qubits. It is seen that the richness of quantum physics will greatly a ect the future generation technologies in many aspects. A significant challenge to optical computing is that computation is a nonlinear process in which multiple signals must interact. Quantum computation with kerrnonlinear photonic crystals. Linear optics is a promising candidate for quantum computing. The basics of theoretical quantum computing are presented and the quantum circuit model as well as measurementbased models of quantum computing. The system of finite linear optical elements constructs a network of linear optics, which can realize any quantum circuit diagram or quantum network based on the quantum circuit model. Nogo theorem for passive singlerail linear optical quantum. Kok, optical quantum information processing cambridge university press, 2010. Pdf linear optics with photon counting is a prominent candidate for practical quantum computing.
Munro hewlettpackard laboratories, filton road stoke gifford, bristol bs34 8qz, united kingdom kae nemoto. For decades, photons have promised to allow a higher bandwidth than the electrons used in conventional computers see optical fibers most research projects focus on replacing current computer components with optical equivalents, resulting in an optical digital computer system. However, the best way to create practical devices is not yet known. We show that by using new techniques from scalable linear optical quantum computing loqc, it is possible to make an all linearoptical quantum memory capable of storing the computational qubit indefinitely. The protocol by knill, laflamme, and milburn 2001, nature london 409, 46 explicitly demonstrates that efficient scalable quantum computing with single photons, linear optical elements, and projective. Milburn4 1department of materials, oxford university, oxford ox1 3ph, uk 2hewlettpackard laboratories, filton road stoke gi. In 2001, all optical quantum computing became feasible with the discovery that scalable quantum computing is possible using only singlephoton sources, linear optical elements, and singlephoton detectors. Linear optical quantum computing linear optics can be used to construct cnot and a scaleable quantum computer.
Experimental demonstration of a heralded entanglement. Linear optical quantum computing one promising approach for scalable quantum computing is to use an all optical architecture, in which the qubits are represented by photons and manipulated by mirrors and beam splitters. The discussion of cluster state protocols and conditional optical gates is the clearest i have seen. The protocol by knill, laflamme, and milburn 2001, nature london 409, 46 explicitly demonstrates that efficient scalable quantum computing with single photons, linear optical elements, and. So far, researchers have demonstrated this method, called linear optical quantum computing, on a. Experimental demonstration of a heralded entanglement source. Citeseerx document details isaac councill, lee giles, pradeep teregowda. The basics of theoretical quantum computing are presented and the quantum circuit model as well as measurement. Engineered optical nonlinearity for quantum light sources. However, it has recently been shown that this barrier can be circumvented with effective nonlinearities produced by projective measurements, and with this work linearoptical quantum computing becomes a new avenue towards scalable quantum computation. Qf c quantum information processing communication with. Quantum states of photons can be easily manipulated by simple linearoptical elements with a high precision at about 99. Linear optical quantum computing or linear optics quantum computation is a paradigm of quantum computation, allowing universal quantum computation. Dowling quantum computing technologies group, section 367, jet propulsion laboratory, california institute of technology, ms 126347, 4800 oak grove drive, ca 91109, usa.
Various aspects of linear optical quantum computing youtube. In quantum computing a very important problem is that of building a quantum memory. A diagram of a nondeterministic probabilistic with success signal cnot is shown in fig. Linear optical quantum computing or linear optics quantum computation loqc is a paradigm of quantum computation, allowing under certain conditions, described below universal quantum computation. Optical quantum information processing an inaccurate history an incomplete progress report an unbiased visionnot antioutline continuousvariable systems atomphoton systems cf. Quantum and semiclassical optics, volume 6, number 8. The resurgence of the linear optics quantum interferometer recent. For example, one model of linear optical quantum computing, the klm model, is universal for quantum computing, and another model, the boson samplingbased model, is believed to be nonuniversal for quantum computing yet still seems to be able to solve some problems exponentially faster than a classical computer. The task of implementing an arbitrary quantum computation on linear optics comes. The protocol by knill, laflamme, and milburn nature 409, 46 2001 explicitly demonstrates that efficient scalable quantum computing with single photons, linear optical elements, and projective measurements is possible. From linear optical quantum computing to heisenberglimited interferometry. Introduction to optical quantum information processing quantum information processing offers fundamental improvements over classical information processing, such as computing power, secure communication, and highprecision measurements.
Use only beamsplitters, phase shifters, single photon sources and photodetectors to implement single and twoqubit gates knilllaflammemilburn nature 409 2001milburn, nature 409 2001 prize to pay. Early optical quantum computers and nonlinearities 6 ii. Linear optical quantum computing with photonic qubits. First of all, the question is interesting in its own right.
We present a constructive method to translate small quantum circuits into their optical analogues, using linear components of presentday quantum optics technology only. Quantum computers do not exist yet, because it is extremely dif. Published 27 july 2004 iop publishing ltd journal of optics b. Linear optical quantum computing or linear optics quantum computation loqc is a paradigm of quantum computation, allowing universal quantum. Feb 26, 2017 various aspects of linear optical quantum computing quantum computing. Kok et al linear optical quantum computing with rev. However, several simplifications were followed by proofof. After developing the fundamental concepts in quantum optics and quantum information theory, the book shows how optical systems can be used to build quantum computers according to the most recent ideas. The protocol by knill, laflamme, and milburn 2001, nature london 409, 46 explicitly demonstrates that efficient scalable quantum computing with single photons, linear optical elements, and projective measurements is possible.
If two photons collide in a vacuum, they simply pass through each other. May 30, 2010 experimental demonstration of a heralded entanglement source. Linear optical quantum computing one promising approach for scalable quantum computing is to use an alloptical architecture, in which the qubits are represented by photons and manipulated by mirrors and beam splitters. Osa engineered optical nonlinearity for quantum light sources. Although it was in principle scalable, the massive resource overhead made the scheme practically daunting. Recent citations urmi dey et al effect of an incoherent pump on twomode entanglement in optical parametric generation s. An efficient way to make photons interact could open new prospects for both classical optics and quantum computing, an experimental technology that promises large speedups on some types of calculations.
Kellogg radiation laboratory california institute of technology, pasadena, california 91125, usa abstract. In linear optical quantum computing, the qubit of choice is usually taken to be a single photon that has the choice of two different modes 0 l 1 0 1,0 and 1 l 0 1 0,1. We design a crystal with an approximately gaussian nonlinearity profile and confirm successful wave. The same approach can be used to make a simple quantum repeater. Light, which is an electromagnetic wave, can only interact with another electromagnetic wave in the presence of electrons in a material, and the strength of this interaction is much weaker for electromagnetic waves, such. Hwang lee 1, pieter kok 1,2, colin p williams 1 and jonathan p dowling 1,3. We design a crystal with an approximately gaussian nonlinearity profile and confirm. Various aspects of linear optical quantum computing quantum computing. Our result provides useful guidance for the design of optical quantum computers. In 2001, alloptical quantum computing became feasible with the discovery that scalable quantum computing is possible using only singlephoton sources, linear optical elements, and singlephoton detectors.
Experimental nonlinear sign shift for linear optics. Linear optical quantum computing with photonic qubits core. We show that by using new techniques from scalable linear optical quantum computing loqc, it is possible to make an all linear optical quantum memory capable of storing the computational qubit indefinitely. Optical or photonic computing uses photons produced by lasers or diodes for computation. The working principles of linear optical quantum computing are based on photodetection, namely, projective measurements. From linear optical quantum computing to heisenberg. Kok and lovetts book is a very thorough and detailed introduction to quantum information processing using optical methods. Loqc uses photons as information carriers, mainly uses linear optical elements, or optical instruments including reciprocal mirrors and waveplates to process quantum. Introduction to optical quantum information processing. Photonics is the ugly duckling of approaches to quantum computing. In the standard circuit model of quantum computing any unitary transformation on n qubits can be decomposed as a product of gates, each of which acts nontrivially on at most two qubits, and is the identity on the other qubits 19. In 2001 alloptical 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. From linear optical quantum computing to heisenberglimited. Five lectures on optical quantum computing pieter kok a quantum computer is a machine that can perform certain calculations much faster than a classical computer by using the laws of quantum mechanics.
Introduction to optical quantum information processing by. Why i am optimistic about the siliconphotonic route to quantum. Integrated photonic quantum gates for polarization qubits. Loss tolerant linear optical quantum memory by measurement. Many applications in optical quantum information processing benefit from careful spectral shaping of singlephoton wavepackets. 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. They are very versatile, mobile and have long decoherence times allowing for data to be con. One currently active field of research is the use of linear optics versus the use of nonlinear optics in quantum computing. Quantum physics has revolutionized our understanding of information processing and enables computational speedups that are unattainable using classical computers. Optical quantum computers provide a variety of advantages over other types of quantum com. Linear linear optical quantum computingoptical quantum. Experimental nonlinear sign shift for linear optics quantum. However, several simplifications were followed by proofofprinciple demonstrations. Citeseerx linear optical quantum computing with photonic.
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