7,388 research outputs found

    Phase reduction of stochastic limit cycle oscillators

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    We point out that the phase reduction of stochastic limit cycle oscillators has been done incorrectly in the literature. We present a correct phase reduction method for oscillators driven by weak external white Gaussian noises. Numerical evidence demonstrates that the present phase equation properly approximates the dynamics of the original full oscillator system.Comment: 4 pages, 2 figure

    A variety of lepton number violating processes related to Majorana neutrino masses

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    A Majorana type of the neutrino mass matrix induces a class of lepton number violating processes. Cross sections of these reactions are given in terms of the neutrino mass matrix element, and a semi-realistic event rate is estimated. These processes provide mass and mixing parameters not directly accessible by the neutrino oscillation experiments. If these processes are discovered with a larger rate than given here, it would imply a new physics of the lepton number violation not directly related to the Majorana neutrino mass, such as R-parity violating operators in SUSY models.Comment: 15 pages, 1 figur

    Creation of two-dimensional coulomb crystals of ions in oblate Paul traps for quantum simulations

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    We develop the theory to describe the equilibrium ion positions and phonon modes for a trapped ion quantum simulator in an oblate Paul trap that creates two-dimensional Coulomb crystals in a triangular lattice. By coupling the internal states of the ions to laser beams propagating along the symmetry axis, we study the effective Ising spin-spin interactions that are mediated via the axial phonons and are less sensitive to ion micromotion. We find that the axial mode frequencies permit the programming of Ising interactions with inverse power law spin-spin couplings that can be tuned from uniform to r−3r^{-3} with DC voltages. Such a trap could allow for interesting new geometrical configurations for quantum simulations on moderately sized systems including frustrated magnetism on triangular lattices or Aharonov-Bohm effects on ion tunneling. The trap also incorporates periodic boundary conditions around loops which could be employed to examine time crystals.Comment: 17 pages, 8 figures, submitted to the journal EPJ Quantum Technology for the thematic Series on Quantum Simulation

    Weak Magnetic Order in the Bilayered-hydrate Nax_{x}CoO2â‹…y_{2}\cdot yH2_{2}O Structure Probed by Co Nuclear Quadrupole Resonance - Proposed Phase Diagram in Superconducting Nax_xCoO2â‹…_{2} \cdot yyH2_2O

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    A weak magnetic order was found in a non-superconducting bilayered-hydrate Nax_{x}CoO2⋅y_{2}\cdot yH2_{2}O sample by a Co Nuclear Quadrupole Resonance (NQR) measurement. The nuclear spin-lattice relaxation rate divided by temperature 1/T1T1/T_1T shows a prominent peak at 5.5 K, below which a Co-NQR peak splits due to an internal field at the Co site. From analyses of the Co NQR spectrum at 1.5 K, the internal field is evaluated to be ∼\sim 300 Oe and is in the abab-plane. The magnitude of the internal field suggests that the ordered moment is as small as ∼0.015\sim 0.015 μB\mu_B using the hyperfine coupling constant reported previously. It is shown that the NQR frequency νQ\nu_Q correlates with magnetic fluctuations from measurements of NQR spectra and 1/T1T1/T_1T in various samples. The higher-νQ\nu_Q sample has the stronger magnetic fluctuations. A possible phase diagram in Nax_{x}CoO2⋅y_{2}\cdot yH2_{2}O is depicted using TcT_c and νQ\nu_Q, in which the crystal distortion along the c-axis of the tilted CoO2_2 octahedron is considered to be a physical parameter. Superconductivity with the highest TcT_c is seemingly observed in the vicinity of the magnetic phase, suggesting strongly that the magnetic fluctuations play an important role for the occurrence of the superconductivity.Comment: 5 pages, 6 figures, submitted to J. Phys. Soc. Jp
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