A spectral characterisation method for χ2 gratings
A spectral characterisation method for χ2 gratings
In a widely used technique for the characterisation of second-order nonlinear gratings the measurement of the quasi-phase-matching (QPM) curve for second-harmonic generation (SHG) is achieved by continuously varying either sample temperature or fundamental (F) wavelength. This curve reveals the information concerning the length and the regularity of the nonlinear grating. This technique exhibit some drawbacks, especially for long gratings. A temperature gradient, practically unavoidable over a long grating, leads to a chirp in the period or the need for very fine scan step in the tuning of the fundamental wavelength are some of these drawbacks. To overcome these constraints, we propose a method that does not need tuning of any parameter and involves short laser pulses and relatively long nonlinear gratings. The method is applied to the case of SHG of ultra-short pulses in QPM structures without depletion of the pump.
Simonneou, C.
69749736-8070-4755-8fd9-3e041be6839a
Vidakovic, P.
367cb026-8ed5-4da3-837a-7395c3289d22
Levenson, J.A.
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Bonfrate, G.
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Pruneri, V.
0e97eb94-b682-409f-a107-ae6b84763f02
Kazansky, P.G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c
15 September 2000
Simonneou, C.
69749736-8070-4755-8fd9-3e041be6839a
Vidakovic, P.
367cb026-8ed5-4da3-837a-7395c3289d22
Levenson, J.A.
58c0c872-6e9c-4c69-b956-91fe11efd2a9
Bonfrate, G.
8bc08494-13f7-48f8-b630-f283d6ffd6d5
Pruneri, V.
0e97eb94-b682-409f-a107-ae6b84763f02
Kazansky, P.G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c
Simonneou, C., Vidakovic, P., Levenson, J.A., Bonfrate, G., Pruneri, V. and Kazansky, P.G.
(2000)
A spectral characterisation method for χ2 gratings.
CLEO/Europe 2000, Nice, France, Nice, France.
10 - 15 Sep 2000.
(doi:10.1109/cleoe.2000.910359).
Record type:
Conference or Workshop Item
(Paper)
Abstract
In a widely used technique for the characterisation of second-order nonlinear gratings the measurement of the quasi-phase-matching (QPM) curve for second-harmonic generation (SHG) is achieved by continuously varying either sample temperature or fundamental (F) wavelength. This curve reveals the information concerning the length and the regularity of the nonlinear grating. This technique exhibit some drawbacks, especially for long gratings. A temperature gradient, practically unavoidable over a long grating, leads to a chirp in the period or the need for very fine scan step in the tuning of the fundamental wavelength are some of these drawbacks. To overcome these constraints, we propose a method that does not need tuning of any parameter and involves short laser pulses and relatively long nonlinear gratings. The method is applied to the case of SHG of ultra-short pulses in QPM structures without depletion of the pump.
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Published date: 15 September 2000
Venue - Dates:
CLEO/Europe 2000, Nice, France, Nice, France, 2000-09-10 - 2000-09-15
Identifiers
Local EPrints ID: 476363
URI: http://eprints.soton.ac.uk/id/eprint/476363
PURE UUID: 7e5b68fb-ff29-4486-8cb8-5e78c2bf3534
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Date deposited: 19 Apr 2023 16:46
Last modified: 16 Mar 2024 23:38
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Contributors
Author:
C. Simonneou
Author:
P. Vidakovic
Author:
J.A. Levenson
Author:
G. Bonfrate
Author:
V. Pruneri
Author:
P.G. Kazansky
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