4-8 July 2016
Kramer Law building
Africa/Johannesburg timezone
<a href="http://events.saip.org.za/internalPage.py?pageId=10&confId=86">The Proceedings of SAIP2016</a> published on 24 December 2017

Characterization of a Q-Plate in terms of Hyper-Geometric Gaussian modes

6 Jul 2016, 16:10
1h 50m
Kramer Law building

Kramer Law building

UCT Middle Campus Cape Town
Board: C.102
Poster Presentation Track C - Photonics Poster Session (2)

Speaker

Ms Bereneice Sephton (CSIR National Laser Centre; Wits Physics Department)

Would you like to <br> submit a short paper <br> for the Conference <br> Proceedings (Yes / No)?

No

Please indicate whether<br>this abstract may be<br>published online<br>(Yes / No)

Yes

Apply to be<br> considered for a student <br> &nbsp; award (Yes / No)?

Yes

Abstract content <br> &nbsp; (Max 300 words)<br><a href="http://events.saip.org.za/getFile.py/access?resId=0&materialId=0&confId=34" target="_blank">Formatting &<br>Special chars</a>

The q-plate (QP) is a recently (2006) developed geometric-phase optical element, proving to be invaluable due to its ability to couple the spin and orbital angular momentum (OAM) of light. Currently gaining importance in the advancement of scientific research, the q-plate is utilized in quantum information transfer, quantum cloning, encoding information in photons and precise, non-contact measurement of mechanical rotations as well as recent research into the physical implementation of the quantum walk. Imperfect transformation has been indicated to occur within the QP, whereby the input beam incurs additional radial modes which can be mathematically described in terms of Hyper-Geometric Gaussian modes. It is therefore important to characterize its operation.

In this work, characterization of a QP and quarter wave plate (QWP) for the implementation of a quantum walk was executed. Theoretical and experimental studies on polarization and modal transformation were employed on these two optical elements. The effect of the QWP orientation and fast axis angle on linearly polarized light is demonstrated. Further confirmation of polarization and OAM transformations exacted by a q = 0.5 QP are quantified. The outcomes were found to correlate well with theoretical expectations. Furthermore, the incurrence of additional radial modes on an incident beam is demonstrated by experimental decomposition of the generated beam into a Laguerre-Gaussian basis set. Finally, the mathematical description of a QP output mode as a Hyper-Geometric Gaussian mode is experimentally verified.

Level for award<br>&nbsp;(Hons, MSc, <br> &nbsp; PhD, N/A)?

MSc

Main supervisor (name and email)<br>and his / her institution

Prof. Andrew Forbes
andrew.forbes@wits.ac.za
CSIR National Laser Centre
Wits Physics Department

Primary author

Ms Bereneice Sephton (CSIR National Laser Centre; Wits Physics Department)

Co-authors

Prof. Andrew Forbes (CSIR) Dr Angela Dudley (CSIR National Laser Centre)

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