Assaf Bitman scite author profile

Assaf Bitman

5Publications

44Citation Statements Received

12Citation Statements Given

How they've been cited

117

How they cite others

Affiliations

Bar-Ilan University, Hebrew University of Jerusalem, Hebrew College

Publications

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Improving depth-of field in broadband THz beams using nondiffractive Bessel beams

Bitman¹,

Moshe²,

Zalevsky

2012

Opt. Lett.

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We report new results related to imaging using broadband Bessel-like beams at the terahertz (THz) domain that were generated by use of axicons and pulsed THz radiation emitting at a bandwidth 0.1 to 1 THz. Such Bessel-like beams exhibit an invariant line of focus with an extended length compared to Gaussian-beams Rayleigh range, which enables imaging through the extended length. We demonstrate this imaging property using a resolution target illuminated by broadband-THz beams and show an improvement by a factor of 3.5 in imaging depth while using Bessel-like beams over Gaussian beams. Our results highlight the potential in using broadband THz radiation together with nondiffractive Bessel beams to significantly improve spatial separation over deep view.

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Electroholographic tunable volume grating in the g_44 configuration

et al. 2006

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The g(44) grating is an electroholographic transmission grating in which the applied field is perpendicular to both the grating vector and the wave vector of the incident beam. It is argued that in this configuration the incident beam traverses through a periodically rotating index ellipsoid. It is shown that in the g(44) configuration the Bragg condition is fulfilled for a specific value of the applied field and for a diffracting beam polarization that is perpendicular to that of the incident beam. Consequently, the g(44) grating can be used as an electrically controlled filter. Tunability of 7 nm is demonstrated in a 2mm thick grating.

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Computed tomography using broadband Bessel THz beams and phase contrast

Bitman¹,

Goldring²,

Moshe³

et al. 2014

Opt. Lett.

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We present new results demonstrating the capability of performing computed tomography (CT) using broadband Bessel terahertz (THz) beams. Nondiffractive beams such as these exhibit propagation-invariant lines of focus with an extended depth-of-field compared to conventional Gaussian beams. Using this property, we demonstrate a considerable improvement in the 3D reconstruction image of a synthetic sample through the backprojection algorithm. Only when THz Bessel beams are used, a full reconstruction of the object structure is made. Moreover, we use phase-contrast mechanism which improves the spatial resolution and reconstructed images. Our results highlight the potential in using nondiffractive Bessel beams to significantly improve 3D-image reconstruction of THz CT.

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Characterization of spectrally broadband terahertz beam propagation

Bitman¹,

Lumer

Moshe³

et al. 2012

J. Opt. Soc. Am. B

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Broadband THz, extended depth of focus imaging based on step phase mask aided interferometry

Bitman

Moshe²,

Zalevsky

2013

Optics Communications

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Assaf Bitman

Improving depth-of field in broadband THz beams using nondiffractive Bessel beams

Electroholographic tunable volume grating in the g_44 configuration

Computed tomography using broadband Bessel THz beams and phase contrast

Characterization of spectrally broadband terahertz beam propagation

Broadband THz, extended depth of focus imaging based on step phase mask aided interferometry

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