0000000000311812

AUTHOR

J Vijande

showing 2 related works from this author

Spectroscopy, lifetime and decay modes of the $T^-_{bb}$ tetraquark

2019

We present the first full-fledged study of the flavor-exotic isoscalar $T_{bb}^-\equiv b b \bar u \bar d$ tetraquark with spin and parity $J^P=1^+$. We report accurate solutions of the four-body problem in a quark model, characterizing the structure of the state as a function of the ratio $M_Q/m_q$ of the heavy to light quark masses. For such a standard constituent model, $T_{bb}^-$ lies approximately 150 MeV below the strong decay threshold $B^-\bar {B^*}^{0}$ and 105 MeV below the electromagnetic decay threshold $B^- \bar B^0 \gamma$. We evaluate the lifetime of $T_{bb}^-$, identifying the promising decay modes where the tetraquark might be looked for in future experiments. Its total deca…

Nuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]FOS: Physical sciencesspinHigh Energy Physics - ExperimentNuclear Theory (nucl-th)High Energy Physics - Experiment (hep-ex)High Energy Physics - Phenomenology (hep-ph)multiquarkisoscalarquantum chromodynamics[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]structureconstituentlifetimequark modelhadron spectroscopyHigh Energy Physics::Phenomenologysemileptonic decayMULTIQUARK HADRONSquark: massHigh Energy Physics - PhenomenologySTATESparitytetraquark: decay modes[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]High Energy Physics::Experimenttetraquark: wave function
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Transparent Boundary Condition for Oseen-Frank Model. Application for NLC Cells With Patterned Electrodes

2015

In the present work a novel application of Transparent Boundary Conditions (TBC) to nematic liquid crystal cells (NLCC) with planar alignment and a patterned electrode is studied. This device is attracting great interest since it allows soliton steering by optically and externally induced waveguides. We employ the continuum Oseen-Frank theory to find the tilt and twist angle distributions in the cell under the one-constant approximation. The electric field distribution takes into account the whole 2D permittivity tensor for the transverse coordinates. Standard finite difference time domain methods together with an iterative method is applied to find an approximate solution to our coupled pr…

PhysicsPermittivityHistorySPATIAL SOLITONSIterative methodCONSTANTSWAVESFinite-difference time-domain methodSoliton (optics)Computer Science ApplicationsEducationClassical mechanicsPlanarLIGHTLiquid crystalDIRECTORElectric fieldSIMULATIONSCHRODINGER-EQUATIONBoundary value problemNEMATIC LIQUID-CRYSTALSMATEMATICA APLICADA
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