A. A. Almazov scite author profile

We deduce and study an analytical expression for Fresnel diffraction of a plane wave by a spiral phase plate (SPP) that imparts an arbitrary-order phase singularity on the light field. Estimates for the optical vortex radius that depends on the singularity's integer order n (also termed topological charge, or order of the dislocation) have been derived. The near-zero vortex intensity is shown to be proportional to rho2n, where p is the radial coordinate. Also, an analytical expression for Fresnel diffraction of the Gaussian beam by a SPP with nth-order singularity is analyzed. The far-field intensity distribution is derived. The radius of maximal intensity is shown to depend on the singularity number. The behavior of the Gaussian beam intensity after a SPP with second-order singularity (n = 2) is studied in more detail. The parameters of the light beams generated numerically with the Fresnel transform and via analytical formulas are in good agreement. In addition, the light fields with first- and second-order singularities were generated by a 32-level SPP fabricated on the resist by use of the electron-beam lithography technique.

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Elliptic Laguerre-Gaussian beams

Kotlyar

Хонина

Almazov

et al. 2006

J. Opt. Soc. Am. A

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An analytical expression for the diffraction of an elliptic Laguerre-Gaussian (LG) beam is derived and analyzed. We show that a beam with even singularity order has nonzero axial intensity for any degree of ellipticity and at any finite distance z from the initial plane, whereas at z = 0 and z = infinity the axial intensity is zero. We show that for a beam with a small degree of ellipticity and even order of singularity, two isolated intensity zeroes appear in the Fresnel zone on a straight line at an angle of 45 deg or -45 deg, depending whether the beam's spin is right or left. The theoretical conclusions are confirmed by numerical simulation and physical experiments.

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Using phase diffraction optical elements to shape and select laser beams consisting of a superposition of an arbitrary number of angular harmonics

2005

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Optimization of multi-tip field emission electron source

Егоров

Almazov

1999

Vacuum

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How the tilt of a phase diffraction optical element affects the properties of shaped laser beams matched with a basis of angular harmonics

2006

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A. A. Almazov

Generation of phase singularity through diffracting a plane or Gaussian beam by a spiral phase plate

Elliptic Laguerre-Gaussian beams

Using phase diffraction optical elements to shape and select laser beams consisting of a superposition of an arbitrary number of angular harmonics

Optimization of multi-tip field emission electron source

How the tilt of a phase diffraction optical element affects the properties of shaped laser beams matched with a basis of angular harmonics

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