Quantum dot superluminescent diodes for optical coherence tomography:Skin imaging

Evaluation of a swept-laser optical coherence tomography light source based on a novel quantum-dot based semiconductor optical amplifier

Krstajic, Nik
Childs, David
Peyvast, Negin
Kasaragod, Deepa
Matcher, Stephen J.
Krestnikov, Igor
Hogg, Richard

August 2011

We describe a simple swept-laser design that characterizes the emission bandwidth, linewidth, spectr...

Tunable Emission Wavelength Stacked InAs/GaAs Quantum Dots by Chemical Beam Epitaxy for Optical Coherence Tomography

Bouraoui Ilahi

June 2016

We report on Chemical Beam Epitaxy (CBE) growth of wavelength tunable InAs/GaAs quantum dots (QD) ba...

Self pulsing quantum dot lasers for optical coherence tomography

Liu, Hao
Smowton, Peter Michael
Edwards, Gareth
Drexler, Wolfgang
Summers, Huw

January 2009

In this paper, we will discuss the necessary properties of the light source needed for high resoluti...

Quantum dot superluminescent diodes for optical coherence tomography:Skin imaging

Krstajić, Nikola
Smith, Louise E.
Matcher, Stephen John
Childs, David T D
Bonesi, Marco
Greenwood, Purnima Daisy Lydia
Hugues, Maxime
Kennedy, Kenneth
Hopkinson, Mark
Groom, Kristian Michael
MacNeil, Sheila
Hogg, Richard A.
Smallwood, Rod

July 2010

We present a high-power (18 mW continuous wave exiting a single-mode fiber and 35 mW exiting the fac...

Optical coherence tomography with high power quantum-dot superluminescent diodes

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

December 2009

We demonstrate imaging performance of a high power quantum-dot superluminescent diode (15mW CW exiti...

Quantum Dot Superluminescent Diodes for Optical Coherence Tomography: Device Engineering

Greenwood, Purnima D. L.
Childs, David T. D.
Kennedy, Kenneth
Groom, Kristian M.
Hugues, Maxime
Hopkinson, Mark
Hogg, Richard A.
Krstajic, Nikola
Smith, Louise E.
Matcher, Stephen J.
Bonesi, Marco
MacNeil, Sheila
Smallwood, Rod

January 2010

We present a 18 m W fiber-coupled single-mode super-luminescent diode with 85 nm bandwidth for appli...

Quantum dot superluminescent diodes for optical coherence tomography:Device engineering

Greenwood, Purnima D L
Childs, David T D
Kennedy, Kenneth
Groom, Kristian M.
Hugues, Maxime
Hopkinson, Mark
Hogg, Richard A.
Krstajić, Nikola
Smith, Louise E.
Matcher, Stephen J.
Bonesi, Marco
MacNeil, Sheila
Smallwood, Rod

July 2010

We present a 18 mW fiber-coupled single-mode superluminescent diode with 85 nm bandwidth for applica...

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.

January 2010

We present a 18 m W fiber-coupled single-mode super-luminescent diode with 85 nm bandwidth for appli...

Maximising performance of optical coherence tomography systems using a multi-section chirped quantum dot superluminescent diode

Judson, P. D L
Groom, K. M.
Childs, D. T D
Hopkinson, M.
Krstajic, N.
Hogg, R. A.

March 2009

Key device requirements for maximising resolution in an optical coherence tomography system are disc...

Development of a broadband superluminescent diode based on self-assembled InAs quantum dots and demonstration of high-axial-resolution optical coherence tomography imaging

Ozaki, Nobuhiko
Yamauchi, Sho
Hayashi, Yuma
Watanabe, Eiichiro
Ohsato, Hirotaka
Ikeda, Naoki
Sugimoto, Yoshimasa
Furuki, Kenji
Oikawa, Yoichi
Miyaji, Kunio
Childs, David T.D.
Hogg, Richard A.

May 2019

We developed a near-infrared (NIR) superluminescent diode (SLD) based on self-assembled InAs quantum...

Multi-contact quantum dot superluminescent diodes for optical coherence tomography

Judson, P. D L
Groom, K. M.
Childs, D. T D
Hopkinson, M.
Krstajic, N.
Hogg, R. A.

December 2008

Multi-contact chirped quantum dot superluminescent diodes are characterized with regard to key param...

Swept-source laser based on quantum-dot semiconductor optical amplifier-applications in optical coherence tomography

Krstajić, N.
Childs, David T. D.
Matcher, S. J.
Livshits, Daniil
Shkolnik, Alexey
Krestnikov, Igor
Hogg, R. A.

June 2011

We present a swept-source laser based on a quantum-dot semiconductor optical amplifier (QD SOA) (des...

Superluminescent diode with a broadband gain based on self-assembled InAs quantum dots and segmented contacts for an optical coherence tomography light source

Ozaki, Nobuhiko
Childs, David T. D.
Sarma, Jayanta
Roberts, Timothy S.
Yasuda, Takuma
Shibata, HIroshi
Ohsato, HIrotaka
Watanabe, Eiichiro
Ikeda, Naoki
Sugimoto, Yoshimasa
Hogg, Richard A.

February 2016

We report a broadband-gain superluminescent diode (SLD) based on self-assembled InAsquantum dots(QDs...

The use of portable coherence tomography device on human skin

Mandia, Paulito F.
Galvez, Maria Cecilia D.
Vallar, Edgar A.
Shiina, Tatsuo

June 2018

Optical coherence tomography (OCT) is a relatively new imaging modality developed in the early 1990’...

Evaluation of a swept-laser optical coherence tomography light source based on a novel quantum-dot based semiconductor optical amplifier

Krstajic, Nik
Childs, David
Peyvast, Negin
Kasaragod, Deepa
Matcher, Stephen J.
Krestnikov, Igor
Hogg, Richard

August 2011

We describe a simple swept-laser design that characterizes the emission bandwidth, linewidth, spectr...

Tunable Emission Wavelength Stacked InAs/GaAs Quantum Dots by Chemical Beam Epitaxy for Optical Coherence Tomography

Bouraoui Ilahi

June 2016

We report on Chemical Beam Epitaxy (CBE) growth of wavelength tunable InAs/GaAs quantum dots (QD) ba...

Self pulsing quantum dot lasers for optical coherence tomography

Liu, Hao
Smowton, Peter Michael
Edwards, Gareth
Drexler, Wolfgang
Summers, Huw

January 2009

In this paper, we will discuss the necessary properties of the light source needed for high resoluti...

Quantum dot superluminescent diodes for optical coherence tomography:Skin imaging

Krstajić, Nikola
Smith, Louise E.
Matcher, Stephen John
Childs, David T D
Bonesi, Marco
Greenwood, Purnima Daisy Lydia
Hugues, Maxime
Kennedy, Kenneth
Hopkinson, Mark
Groom, Kristian Michael
MacNeil, Sheila
Hogg, Richard A.
Smallwood, Rod

July 2010

We present a high-power (18 mW continuous wave exiting a single-mode fiber and 35 mW exiting the fac...

Optical coherence tomography with high power quantum-dot superluminescent diodes

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

December 2009

We demonstrate imaging performance of a high power quantum-dot superluminescent diode (15mW CW exiti...

Quantum Dot Superluminescent Diodes for Optical Coherence Tomography: Device Engineering

Greenwood, Purnima D. L.
Childs, David T. D.
Kennedy, Kenneth
Groom, Kristian M.
Hugues, Maxime
Hopkinson, Mark
Hogg, Richard A.
Krstajic, Nikola
Smith, Louise E.
Matcher, Stephen J.
Bonesi, Marco
MacNeil, Sheila
Smallwood, Rod

January 2010

We present a 18 m W fiber-coupled single-mode super-luminescent diode with 85 nm bandwidth for appli...

Quantum dot superluminescent diodes for optical coherence tomography:Device engineering

Greenwood, Purnima D L
Childs, David T D
Kennedy, Kenneth
Groom, Kristian M.
Hugues, Maxime
Hopkinson, Mark
Hogg, Richard A.
Krstajić, Nikola
Smith, Louise E.
Matcher, Stephen J.
Bonesi, Marco
MacNeil, Sheila
Smallwood, Rod

July 2010

We present a 18 mW fiber-coupled single-mode superluminescent diode with 85 nm bandwidth for applica...

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.

January 2010

We present a 18 m W fiber-coupled single-mode super-luminescent diode with 85 nm bandwidth for appli...

Maximising performance of optical coherence tomography systems using a multi-section chirped quantum dot superluminescent diode

Judson, P. D L
Groom, K. M.
Childs, D. T D
Hopkinson, M.
Krstajic, N.
Hogg, R. A.

March 2009

Key device requirements for maximising resolution in an optical coherence tomography system are disc...

Development of a broadband superluminescent diode based on self-assembled InAs quantum dots and demonstration of high-axial-resolution optical coherence tomography imaging

Ozaki, Nobuhiko
Yamauchi, Sho
Hayashi, Yuma
Watanabe, Eiichiro
Ohsato, Hirotaka
Ikeda, Naoki
Sugimoto, Yoshimasa
Furuki, Kenji
Oikawa, Yoichi
Miyaji, Kunio
Childs, David T.D.
Hogg, Richard A.

May 2019

We developed a near-infrared (NIR) superluminescent diode (SLD) based on self-assembled InAs quantum...

Multi-contact quantum dot superluminescent diodes for optical coherence tomography

Judson, P. D L
Groom, K. M.
Childs, D. T D
Hopkinson, M.
Krstajic, N.
Hogg, R. A.

December 2008

Multi-contact chirped quantum dot superluminescent diodes are characterized with regard to key param...

Swept-source laser based on quantum-dot semiconductor optical amplifier-applications in optical coherence tomography

Krstajić, N.
Childs, David T. D.
Matcher, S. J.
Livshits, Daniil
Shkolnik, Alexey
Krestnikov, Igor
Hogg, R. A.

June 2011

We present a swept-source laser based on a quantum-dot semiconductor optical amplifier (QD SOA) (des...

Superluminescent diode with a broadband gain based on self-assembled InAs quantum dots and segmented contacts for an optical coherence tomography light source

Ozaki, Nobuhiko
Childs, David T. D.
Sarma, Jayanta
Roberts, Timothy S.
Yasuda, Takuma
Shibata, HIroshi
Ohsato, HIrotaka
Watanabe, Eiichiro
Ikeda, Naoki
Sugimoto, Yoshimasa
Hogg, Richard A.

February 2016

We report a broadband-gain superluminescent diode (SLD) based on self-assembled InAsquantum dots(QDs...

The use of portable coherence tomography device on human skin

Mandia, Paulito F.
Galvez, Maria Cecilia D.
Vallar, Edgar A.
Shiina, Tatsuo

June 2018

Optical coherence tomography (OCT) is a relatively new imaging modality developed in the early 1990’...

Evaluation of a swept-laser optical coherence tomography light source based on a novel quantum-dot based semiconductor optical amplifier

Krstajic, Nik
Childs, David
Peyvast, Negin
Kasaragod, Deepa
Matcher, Stephen J.
Krestnikov, Igor
Hogg, Richard

August 2011

We describe a simple swept-laser design that characterizes the emission bandwidth, linewidth, spectr...

Tunable Emission Wavelength Stacked InAs/GaAs Quantum Dots by Chemical Beam Epitaxy for Optical Coherence Tomography

Bouraoui Ilahi

June 2016

We report on Chemical Beam Epitaxy (CBE) growth of wavelength tunable InAs/GaAs quantum dots (QD) ba...

Self pulsing quantum dot lasers for optical coherence tomography

Liu, Hao
Smowton, Peter Michael
Edwards, Gareth
Drexler, Wolfgang
Summers, Huw

January 2009

In this paper, we will discuss the necessary properties of the light source needed for high resoluti...

Quantum dot superluminescent diodes for optical coherence tomography:Skin imaging

Abstract

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Quantum dot superluminescent diodes for optical coherence tomography:Skin imaging

Abstract

Extracted data

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