Ting-Hua Lu scite author profile

Controlling the density of exciton and trion quasiparticles in monolayer two-dimensional (2D) materials at room temperature by nondestructive techniques is highly desired for the development of future optoelectronic devices. Here, the effects of different orbital angular momentum (OAM) lights on monolayer tungsten disulfide at both room temperature and low temperatures are investigated, which reveal simultaneously enhanced exciton intensity and suppressed trion intensity in the photoluminescence spectra with increasing topological charge of the OAM light. In addition, the trion-to-exciton conversion efficiency is found to increase rapidly with the OAM light at low laser power and decrease with increasing power. Moreover, the trion binding energy and the concentration of unbound electrons are estimated, which shed light on how these quantities depend on OAM. A phenomenological model is proposed to account for the experimental data. These findings pave a way toward manipulating the exciton emission in 2D materials with OAM light for optoelectronic applications.

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Exploring vortex structures in orbital-angular-momentum beams generated from planar geometric modes with a mode converter

Tung¹,

Liang²,

Lu³

et al. 2016

Opt. Express

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It is theoretically demonstrated that the planar geometric mode with a π/2 mode converter, so called the circularly geometric mode, can be solved from the inhomogeneous Helmholtz equation by considering the pump distribution on the lasing mode. Theoretical analysis clearly reveal that the vortex structures of circularly geometric modes are determined by the minimum order of transverse lasing modes, the total number of transverse lasing modes and the degenerate condition in the cavity. Moreover, we experimentally manifest that the circularly geometric mode can be generated from the selective pumped solid-state laser with an external π/2 mode converter. To explore the vortex structures of the generated geometric modes, the interference patterns are performed by an experimental apparatus consisting of a Mach-Zehnder interferometer. The good agreement between experimental observations and numerical calculations confirms the analysis of vortex structures is reliable.

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Manifestation of Weak Localization and Long-Range Correlation in Disordered Wave Functions from Conical Second Harmonic Generation

Chen

et al. 2006

Phys. Rev. Lett.

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We experimentally demonstrate that the near-field patterns of conical second harmonic generation of a laser in random domain structures can be used to explore the spatial structure of two-dimensional disordered wave functions with weak localization. The statistics of the experimental near-field patterns agree very well with the theoretical distributions. In addition to the short-range correlation, the localization effects are found to contribute a nearly constant value to the long-range correlation. The result of this Letter also confirms the possibility of using conical second harmonic generation as a diagnostic tool for topographical characterization of crystals.

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Quantum signatures of nonlinear resonances in mesoscopic systems: Efficient extension of localized wave functions

Chen

Lu²,

Su³

et al. 2005

Phys. Rev. E

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We investigate the quantum signatures of classical nonlinear resonances by making the analytic connection between the quantum wave functions and the classical periodic orbits for the uncoupled systems. It is found that the highly efficient extension of the localized coherent states within the classical caustics is an intriguing phenomenon in mesoscopic systems with nonlinear resonances. With the theoretical analysis, we experimentally demonstrate that the laser resonator with an intracavity saturable absorber can be employed to visualize the wave patterns analogous to the quantum wave functions associated with Fermi resonance.

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Hyperboloid Structures Formed by Polarization Singularities in Coherent Vector Fields with Longitudinal-Transverse Coupling

Chen

Huang

2006

Phys. Rev. Lett.

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The propagation-dependent polarization vector fields are experimentally created from an isotropic microchip laser with a longitudinal-transverse coupling and entanglement of the polarization states. The experimental three-dimensional coherent vector fields are analytically reconstructed with a coherent superposition of orthogonal circularly polarized vortex modes. Each polarized component is found to comprise two Laguerre-Gaussian modes with different topological charges. With the analytical representation, the polarization singularities, on which the electric polarization ellipse is purely circular (C lines) or purely linear (L surfaces), are explored. The C line singularities are found to form an intriguing hyperboloidal structure.

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Ting-Hua Lu

Control of trion-to-exciton conversion in monolayer WS ₂ by orbital angular momentum of light

Exploring vortex structures in orbital-angular-momentum beams generated from planar geometric modes with a mode converter

Manifestation of Weak Localization and Long-Range Correlation in Disordered Wave Functions from Conical Second Harmonic Generation

Quantum signatures of nonlinear resonances in mesoscopic systems: Efficient extension of localized wave functions

Hyperboloid Structures Formed by Polarization Singularities in Coherent Vector Fields with Longitudinal-Transverse Coupling

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Ting-Hua Lu

Control of trion-to-exciton conversion in monolayer WS 2 by orbital angular momentum of light

Exploring vortex structures in orbital-angular-momentum beams generated from planar geometric modes with a mode converter

Manifestation of Weak Localization and Long-Range Correlation in Disordered Wave Functions from Conical Second Harmonic Generation

Quantum signatures of nonlinear resonances in mesoscopic systems: Efficient extension of localized wave functions

Hyperboloid Structures Formed by Polarization Singularities in Coherent Vector Fields with Longitudinal-Transverse Coupling

Contact Info

Product

Resources

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Control of trion-to-exciton conversion in monolayer WS ₂ by orbital angular momentum of light