Quantum dot superluminescent diodes for optical coherence tomography: device engineering

Greenwood, P.D.L.
Childs, D.T.D.
Kennedy, K.
Groom, K.M.
Hugues, M.
Hopkinson, M.
Hogg, R.A.
Krstajic, N.
Smith, L.E.
Matcher, S.J.
Bonesi, M.
MacNeil, S.
Smallwood, R.

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Publication date

January 2010

DOI

10.1109/JSTQE.2009.2038720

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

ISSN

1077-260X

Language

English

Citation count (estimate)

Abstract

We present a 18 m W fiber-coupled single-mode super-luminescent diode with 85 nm bandwidth for application in optical coherence tomography (OCT). First, we describe the effect of quantum dot (QD) growth temperature on optical spectrum and gain, highlighting the need for the optimization of epitaxy for broadband applications. Then, by incorporating this improved material into a multicontact device, we show how bandwidth and power can be controlled. We then go on to show how the spectral shape influences the autocorrelation function, which exhibits a coherence length of < 11 mu m, and relative noise is found to be 10 dB lower than that of a thermal source. Finally, we apply the optimum device to OCT of in vivo skin and show the improvement th...