MTU Cork Library Catalogue

Dynamics of frequency swept sources for optical coherence tomography / Svetlana Slepneva.

By: Slepneva, Svetlana [author.].
Material type: materialTypeLabelBookSeries: Ph.D. - Applied Physics and Instrumentation.Publisher: Cork : Cork Institute of Technology, 2015Description: 143 pages : illustrations(some color), diagrams, graphs ; 30 cm.Content type: text Media type: unmediated Carrier type: volumeSubject(s): Optical coherence tomography -- Analysis | Tomography, Optical coherence | Coherence (Optics) | Optoelectronics | Lasers in physicsDDC classification: THESES PRESS Dissertation note: Thesis (Ph.D. - Cork Institute of Technology, 2015. Summary: This thesis aims to analyse the properties of optical coherence tomography swept sources, using fast real-time intensity and phase characterisation techniques for full electric field reconstruction. In the first part, these techniques are applied to analyse a commercial short cavity laser that exhibits mode hopping, sliding frequency mode locking or chaotic dynamical regime depending on the sweep speed and direction. Numerical simulations of time-delayed differential equations display similar features and enable an understanding of the underlying physics of the coherence properties of these light sources. In the second part of the thesis, a Fourier Domain Mode Locked (FDML) laser is built and analysed using techniques developed in the preceding part. In this laser, an intra-cavity tunable filter is tuned in resonance with the cavity round trip time in order to store and recycle the entire sweep at each round trip. Both experimental and theoretical analyses show that the main features of these lasers can be explained by those observed under the quasistatic tuning of the filter. In addition, it is shown that various instabilities can co-exist within a sweep including the formation of convective solitons. - (Author's abstract)
List(s) this item appears in: PhD Theses
Holdings
Item type Current library Call number Copy number Status Date due Barcode Item holds
Reference MTU Bishopstown Library Thesis THESES PRESS (Browse shelf(Opens below)) 1 Reference 00179832
Total holds: 0

Thesis (Ph.D. - Cork Institute of Technology, 2015.

Bibliography: p. 129-143.

This thesis aims to analyse the properties of optical coherence tomography swept sources, using fast real-time intensity and phase characterisation techniques for full electric field reconstruction. In the first part, these techniques are applied to analyse a commercial short cavity laser that exhibits mode hopping, sliding frequency mode locking or chaotic dynamical regime depending on the sweep speed and direction. Numerical simulations of time-delayed differential equations display similar features and enable an understanding of the underlying physics of the coherence properties of these light sources. In the second part of the thesis, a Fourier Domain Mode Locked (FDML) laser is built and analysed using techniques developed in the preceding part. In this laser, an intra-cavity tunable filter is tuned in resonance with the cavity round trip time in order to store and recycle the entire sweep at each round trip. Both experimental and theoretical analyses show that the main features of these lasers can be explained by those observed under the quasistatic tuning of the filter. In addition, it is shown that various instabilities can co-exist within a sweep including the formation of convective solitons. - (Author's abstract)

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