Yuanhang Zhang scite author profile

We propose a Hermite–Gaussian (HG) mode-demulti-plexing hybrid (MDH) for coherent detection of mode-division multiplexed signals. The MDH, which performs multiple functionalities, including demultiplexing, local oscillator splitting, and optical 90-deg mixing, is realized based on the multi-plane light conversion technique. An isosceles right triangle output layout is employed to reduce the number of phase masks to fewer than the number of modes, significantly simplifying the construction of the MDH. A 10-Hermite–Gaussian (HG) mode MDH with only five phase masks is demonstrated by numerical simulation, achieving an insertion loss (IL) and mode dependent loss as low as − 2.3 and 1.7 dB, respectively. The IL was further reduced to − 1.5 d B through optimization of MDH parameters, such as the beam waists of the input HG modes and the output spots.

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Scalable non-mode selective Hermite–Gaussian mode multiplexer based on multi-plane light conversion

Wen

Zhang

Sampson

et al. 2021

Photon. Res.

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Non-mode-selective (NMS) multiplexers (muxes) are highly desirable for coherent power combining to produce a high-power beam with a shaped profile (wavefront synthesis) from discrete, phase-locked emitters. We propose a design for a multi-plane light conversion (MPLC)-based NMS mux, which requires only a few phase masks for coherently combining hundreds of discrete input beams into an output beam consisting of hundreds of Hermite–Gaussian (HG) modes. The combination of HG modes as a base can further construct a beam with arbitrary wavefront. The low number of phase masks is attributed to the identical zero-crossing structure of the Hadamard-coded input arrays and of the output HG modes, enabling the practicality of such devices. An NMS mux supporting 256 HG modes is designed using only seven phase masks, and achieves an insertion loss of − 1.6 dB , mode-dependent loss of 4.7 dB, and average total mode crosstalk of − 4.4 dB . Additionally, this design, featuring equal power for all input beams, enables phase-only control in coherent power combining, resulting in significant simplifications and fast convergence compared with phase-and-amplitude control.

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Laser ² : A two-domain photon-phonon laser

et al. 2023

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The laser is one of the greatest inventions in history. Because of its ubiquitous applications and profound societal impact, the concept of the laser has been extended to other physical domains including phonon lasers and atom lasers. Quite often, a laser in one physical domain is pumped by energy in another. However, all lasers demonstrated so far have only lased in one physical domain. We have experimentally demonstrated simultaneous photon and phonon lasing in a two-mode silica fiber ring cavity via forward intermodal stimulated Brillouin scattering (SBS) mediated by long-lived flexural acoustic waves. This two-domain laser may find potential applications in optical/acoustic tweezers, optomechanical sensing, microwave generation, and quantum information processing. Furthermore, we believe that this demonstration will usher in other multidomain lasers and related applications.

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Optical Broadcasting Employing Incoherent and Low-Coherence Spatial Modes for Bi-Directional Optical Wireless Communications

Huang

Chen

Fontaine

et al. 2021

J. Lightwave Technol.

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Yuanhang Zhang

An Ultra-Broadband Polarization-Insensitive Optical Hybrid Using Multiplane Light Conversion

Scalable Hermite–Gaussian mode-demultiplexing hybrids

Scalable non-mode selective Hermite–Gaussian mode multiplexer based on multi-plane light conversion

Laser ² : A two-domain photon-phonon laser

Optical Broadcasting Employing Incoherent and Low-Coherence Spatial Modes for Bi-Directional Optical Wireless Communications

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Yuanhang Zhang

An Ultra-Broadband Polarization-Insensitive Optical Hybrid Using Multiplane Light Conversion

Scalable Hermite–Gaussian mode-demultiplexing hybrids

Scalable non-mode selective Hermite–Gaussian mode multiplexer based on multi-plane light conversion

Laser 2 : A two-domain photon-phonon laser

Optical Broadcasting Employing Incoherent and Low-Coherence Spatial Modes for Bi-Directional Optical Wireless Communications

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Product

Resources

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Laser ² : A two-domain photon-phonon laser