Evgueni Popov scite author profile

We report the direct experimental observation of photonic nanojets created by single latex microspheres illuminated by a plane wave at a wavelength of 520 nm. Measurements are performed with a fast scanning confocal microscope in detection mode, where the detection pinhole defines a diffraction-limited observation volume that is scanned in three dimensions over the microsphere vicinity. From the collected stack of images, we reconstruct the full 3 dimensional photonic nanojet beam. Observations are conducted for polystyrene spheres of 1, 3 and 5 microm diameter deposited on a glass substrate, the upper medium being air or water. Experimental results are compared to calculations performed using the Mie theory. We measure nanojet sizes as small as 270 nm FWHM for a 3 microm sphere at a wavelength lambda of 520 nm. The beam keeps a subwavelength FWHM over a propagation distance of more than 3 lambda, displaying all the specificities of a photonic nanojet.

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Spectral analysis of three-dimensional photonic jets

Devilez¹,

Stout²,

Bonod³

et al. 2008

Opt. Express

109

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The spatial and spectral properties of three-dimensional photonic jets are studied in a framework employing rigorous Lorentz-Mie theory. The contributions to the field from each spectral component are studied quantitatively and highlight the distinctive features of photonic jets. In particular, the role of evanescent field in photonic jets generated by small spheres is investigated. Secondary lobes in the propagative frequency distribution are also singled out as a distinctive property of photonic jets. It is shown that these differences lead to angular openings of photonic jets at least twice as small as those in comparable 'Gaussian' beams.

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Frequency stabilization of phase-conjugate state pulse laser by intracavity reflecting Bragg grating

Khakhailn¹,

Popov²,

Pogoda³

et al. 2020

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Evgueni Popov

Direct imaging of photonic nanojets

Spectral analysis of three-dimensional photonic jets

Frequency stabilization of phase-conjugate state pulse laser by intracavity reflecting Bragg grating

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