Pravin Vaity scite author profile

We derive a mathematical description of a perfect vortex beam as the Fourier transformation of a Bessel beam. Building on this development, we experimentally generate Bessel-Gauss beams of different orders and Fourier transform them to form perfect vortex beams. By controlling the radial wave vector of a Bessel-Gauss beam, we can control the ring radius of the generated beam. Our theoretical predictions match with the experimental results and also provide an explanation for previous published works. We find the perfect vortex resembles that of an orbital angular momentum (OAM) mode supported in annular profiled waveguides. Our prefect vortex beam generation method can be used to excite OAM modes in an annular core fiber.

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Design, fabrication and validation of an OAM fiber supporting 36 states

Brunet¹,

Vaity²,

Messaddeq³

et al. 2014

Opt. Express

364

153

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We present an optical fiber supporting 36 information bearing orbital angular momentum (OAM) states spanning 9 OAM orders. We introduce design techniques to maximize the number of OAM modes supported in the fiber; while avoiding LP mode excitation. We fabricate such a fiber with an air core and an annular index profile using the MCVD process. We introduce a new technique for shaping OAM beams in free-space to obtain better coupling efficiency with fiber with annular index profiles. We excite 9 orders of OAM in the fiber, using interferometry to verify the OAM state on exiting the fiber. Using polarization multiplexing and both signs for the topological charge, we confirm support of 36 states, exploiting to our knowledge the highest number of OAM modes ever transmitted in optical fiber.

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Measuring the topological charge of an optical vortex by using a tilted convex lens

2013

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Few-mode fiber with inverse-parabolic graded-index profile for transmission of OAM-carrying modes

Ung¹,

Vaity²,

Wang³

et al. 2014

Opt. Express

172

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A novel type of few-mode fiber, characterized by an inverse-parabolic graded-index profile, is proposed for the robust transmission of cylindrical vector modes as well as modes carrying quantized orbital angular momentum (OAM). Large effective index separations between vector modes (>2.1 × 10(-4)) are numerically calculated and experimentally confirmed in this fiber over the whole C-band, enabling transmission of OAM(+/-1,1) modes for distances up to 1.1 km. Simple design rules are provided for the optimization of the fiber parameters.

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Mode Division Multiplexing Using Orbital Angular Momentum Modes Over 1.4-km Ring Core Fiber

Nejad

Allahverdyan

Vaity

et al. 2016

J. Lightwave Technol.

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Abstract-Mode division multiplexing (MDM) systems using orbital angular momentum (OAM) modes can recover the data in D different modes without recourse to full (2D×2D) multiple input-multiple output (MIMO) processing. One of the biggest challenges in OAM-MDM systems is the mode instability following fiber propagation. Previously, MIMO-free OAM-MDM data transmission with two modes over 1.1 km of vortex fiber was demonstrated where optical polarization demultiplexing was employed in the setup. We demonstrate MDM data transmission using two OAM modes over 1.4 km of a specially designed ring core fiber (RCF) without using full MIMO processing or optical polarization demultiplexing. We demonstrate reception with electrical polarization demultiplexing, i.e., minimal 22 MIMO, showing the compatibility of OAM-MDM with current polarization demultiplexing receivers.

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Pravin Vaity

Perfect vortex beam: Fourier transformation of a Bessel beam

Design, fabrication and validation of an OAM fiber supporting 36 states

Measuring the topological charge of an optical vortex by using a tilted convex lens

Few-mode fiber with inverse-parabolic graded-index profile for transmission of OAM-carrying modes

Mode Division Multiplexing Using Orbital Angular Momentum Modes Over 1.4-km Ring Core Fiber

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