Now showing 1 - 10 of 159
  • Publication
    Open Access
    Optically induced spin hall effect in atoms
    (American Physical Society, 2007)
    Liu, Xiong-Jun
    ;
    Liu, Xin
    ;
    ;
    Oh, Choo Hiap
    We propose an optical means to realize the spin-Hall effect (SHE) in a neutral atomic system by coupling the internal spin states of atoms to radiation. The interaction between the external optical fields and the atoms creates effective magnetic fields that act in opposite directions on “electrically” neutral atoms with opposite spin polarizations. This effect leads to a Landau level structure for each spin orientation in direct analogy with the familiar SHE in semiconductors. The conservation and topological properties of the spin current, and the creation of a pure spin current are discussed.
    WOS© Citations 107Scopus© Citations 111  122  198
  • Publication
    Metadata only
    Integrated photonic computing chip for unary-based option pricing
    (Optica Publishing Group, 2024)
    Zhang, Hui
    ;
    Ramos-Calderer, Sergi
    ;
    Zhan, Yuancheng
    ;
    Cai, Hong
    ;
    Lo, Guo-Qiang
    ;
    ;
    Latorre, José Ignacio
    ;
    Liu, Ai Qun
    A specialized photonic chip is demonstrated for unary European option pricing and quantum amplitude estimation is adopted to overcome classical computing bottlenecks. The chip achieves precise asset distribution modeling and prediction, significantly enhancing financial industry efficiency and services.
      17
  • Publication
    Open Access
    Quantum nonlocality of massive qubits in a moving frame
    (American Physical Society, 2013)
    Su, Hong-Yi
    ;
    Wu, Yu-Chun
    ;
    Chen, Jing-Ling
    ;
    Wu, Chunfeng
    ;
    We perform numerical tests on quantum nonlocality of two-level quantum systems (qubits) observed by a uniformly moving observer. Under a suitable momentum setting, the quantum nonlocality of two-qubit nonmaximally entangled states could be weakened drastically by the Lorentz transformation allowing for the existence of local-hidden-variable models, whereas three-qubit genuinely entangled states are robust. In particular, the generalized GHZ state remains nonlocal under arbitrary Wigner rotation and the generalized W state could admit local-hidden- variable models within a rather narrow range of parameters.
    WOS© Citations 6Scopus© Citations 6  331  121
  • Publication
    Open Access
    Quantum pure noise-induced transitions: A truly nonclassical limit cycle sensitive to number parity
    (SciPost, 2023)
    Chia, Andy
    ;
    Mok, Wai Keong
    ;
    Noh, Changsuk
    ;
    It is universally accepted that noise may bring order to complex nonequilibrium systems. Most strikingly, entirely new states not seen in the noiseless system can be induced purely by including multiplicative noise-an effect known as pure noise-induced transitions. It was first observed in superfluids in the 1980s. Recent results in complex nonequilibrium systems have also shown how new collective states emerge from such pure noise-induced transitions, such as the foraging behavior of insect colonies, and schooling in fish. Here we report such effects of noise in a quantum-mechanical system without a classical limit. We use a minimal model of a nonlinearly damped oscillator in a fluctuating environment that is analytically tractable, and whose microscopic physics can be understood. When multiplicative environmental noise is included, the system is seen to transition to a limit-cycle state. The noise-induced quantum limit cycle also exhibits other genuinely nonclassical traits, such as Wigner negativity and number-parity sensitive circulation in phase space. Such quantum limit cycles are also conservative. These properties are in stark contrast to those of a widely used limit cycle in the literature, which is dissipative and loses all Wigner negativity. Our results establish the existence of a pure noise-induced transition that is nonclassical and unique to open quantum systems. They illustrate a fundamental difference between quantum and classical noise.
      16  39
  • Publication
    Open Access
    Statistical reconstruction of qutrits
    (American Physical Society, 2004)
    Bogdanov, Yu. I.
    ;
    Chekhova, M. V.
    ;
    Krivitsky, L. A.
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    Kulik, S. P.
    ;
    Penin, A. N.
    ;
    Zhukov, A. A.
    ;
    ;
    Oh, Choo Hiap
    ;
    Tey, M. K.
    We discuss a procedure of measurement followed by the reproduction of the quantum state of a three-level optical system—a frequency—and spatially degenerate two-photon field. The method of statistical estimation of the quantum state based on solving the likelihood equation and analyzing the statistical properties of the obtained estimates is developed. Using the root approach of estimating quantum states, the initial two-photon state vector is reproduced from the measured fourth moments in the field. The developed approach applied to quantum-state reconstruction is based on the amplitudes of mutually complementary processes. The classical algorithm of statistical estimation based on the Fisher information matrix is generalized to the case of quantum systems obeying Bohr’s complementarity principle. It has been experimentally proved that biphoton-qutrit states can be reconstructed with the fidelity of 0.995–0.999 and higher.
    WOS© Citations 65  325  229Scopus© Citations 77
  • Publication
    Embargo
    Geometric and holonomic quantum computation
    (Elsevier, 2023)
    Zhang, Jiang
    ;
    Kyaw, Thi Ha
    ;
    Filipp, Stefan
    ;
    ;
    Sjöqvist, Erik
    ;
    Tong, Dianmin
    Geometric and holonomic quantum computation utilizes intrinsic geometric properties of quantum-mechanical state spaces to realize quantum logic gates. Since both geometric phases and quantum holonomies are global quantities depending only on the evolution paths of quantum systems, quantum gates based on them possess built-in resilience to certain kinds of errors. This review provides an introduction to the topic as well as gives an overview of the theoretical and experimental progress for constructing geometric and holonomic quantum gates and how to combine them with other error-resistant techniques.
    WOS© Citations 6  52Scopus© Citations 16
  • Publication
    Open Access
    Fisher information as general metrics of quantum synchronization
    (MDPI, 2023)
    Shen, Yuan
    ;
    Soh, Hong Yi
    ;
    ;
    Fan, Weijun
    Quantum synchronization has emerged as a crucial phenomenon in quantum nonlinear dynamics with potential applications in quantum information processing. Multiple measures for quantifying quantum synchronization exist. However, there is currently no widely agreed metric that is universally adopted. In this paper, we propose using classical and quantum Fisher information (FI) as alternative metrics to detect and measure quantum synchronization. We establish the connection between FI and quantum synchronization, demonstrating that both classical and quantum FI can be deployed as more general indicators of quantum phase synchronization in some regimes where all other existing measures fail to provide reliable results. We show advantages in FI-based measures, especially in 2-to-1 synchronization. Furthermore, we analyze the impact of noise on the synchronization measures, revealing the robustness and susceptibility of each method in the presence of dissipation and decoherence. Our results open up new avenues for understanding and exploiting quantum synchronization.
      36  55
  • Publication
    Metadata only
    GHZ-like states in the qubit-qudit rabi model
    (SciPost, 2021)
    Shen, Yuan
    ;
    Marchegiani, Giampiero
    ;
    Catelani, Gianluigi
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    Amico, Luigi
    ;
    Liu, Ai Qun
    ;
    Fan, Weijun
    ;
    We study a Rabi type Hamiltonian system in which a qubit and a d-level quantum system (qudit) are coupled through a common resonator. In the weak and strong coupling limits the spectrum is analysed through suitable perturbative schemes. The analysis show that the presence of the multilevels of the qudit effectively enhance the qubit-qudit interaction. The ground state of the strongly coupled system is found to be of Greenberger-Horne-Zeilinger (GHZ) type. Therefore, despite the qubit-qudit strong coupling, the nature of the specific tripartite entanglement of the GHZ state suppresses the bipartite entanglement. We analyze the system dynamics under quenching and adiabatic switching of the qubit-resonator and qudit-resonator couplings. In the quench case, we found that the non-adiabatic generation of photons in the resonator is enhanced by the number of levels in the qudit. The adiabatic control represents a possible route for preparation of GHZ states. Our analysis provides relevant information for future studies on coherent state transfer in qubit-qudit systems.
    WOS© Citations 1  51
  • Publication
    Open Access
    Clauser-Horne inequality for three-state systems
    (American Physical Society, 2002)
    Kaszlikowski, Dagomir
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    ;
    Chen, Jing-Ling
    ;
    Zukowski, Marek
    ;
    Oh, Choo Hiap
    We show a new Bell-Clauser-Horne inequality for two entangled three-dimensional quantum systems (so-called qutrits). This inequality is not violated by a maximally entangled state of two qutrits observed through a symmetric three-input- and three-output-port beam splitter only if the amount of noise in the system is greater than (11−63 √ )/2≈0.308. This result is in a perfect agreement with the previous numerical calculations presented in Kaszlikowski et al. [Phys. Rev. Lett. 85, 4418 (2000)]. Moreover, we prove that for noiseless case, the necessary and sufficient condition for the threshold quantum efficiency of detectors below which there is no violation of local realism for the optimal choice of observables is equal to 6(15−43 √ )/59≈0.821. This efficiency result again agrees with the numerical predictions.
    WOS© Citations 97Scopus© Citations 108  322  277
  • Publication
    Open Access
    Incorporating nature of science elements in A-level physics lessons in Singapore.
    (National Institute of Education (Singapore), 2020)
    Subramaniam, R. (Ramanathan)
    ;
    Wong, Choun Pei
    ;
    Wee, Andrew
    ;
    ;
    Sow, Chorng Haur
    ;
    Chew, Charles
    ;
    Wong, Darren
      188  143