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35 results on '"Cockburn, John W."'

1. Artefacts in geometric phase analysis of compound materials

Author

Petersa, Jonathan J. P., Beanland, Richard, Alexe, Marin, Cockburn, John W., Revin, Dmitry G., Zhang, Shiyong Y., and Sanchez, Ana M.

Subjects
Condensed Matter - Materials Science
Abstract

The geometric phase analysis (GPA) algorithm is known as a robust and straightforward technique that can be used to measure lattice strains in high resolution transmission electron microscope (TEM) images. It is also attractive for analysis of aberration-corrected scanning TEM (ac-STEM) images that resolve every atom column, since it uses Fourier transforms and does not require real-space peak detection and assignment to appropriate sublattices. Here it is demonstrated that in ac-STEM images of compound materials (i.e. with more than one atom per unit cell) an additional phase is present in the Fourier transform. If the structure changes from one area to another in the image (e.g. across an interface), the change in this additional phase will appear as a strain in conventional GPA, even if there is no lattice strain. Strategies to avoid this pitfall are outlined., Comment: 9 pages, 7 figures, Preprint before review, submitted to Ultramicroscopy 7 April 2015

Published
2015

11. Ultrafast Spectroscopy As A Probe Of Light-Matter Interaction In A Midinfrared Quantum Cascade Laser

Author

Parz, Wolfgang, primary, Müller, Thomas, additional, Darmo, Juraj, additional, Austerer, Max, additional, Strasser, Gottfried, additional, Wilson, Luke R., additional, Cockburn, John W., additional, Krysa, Andrey B., additional, Roberts, John S., additional, Unterrainer, Karl, additional, Caldas, Marília, additional, and Studart, Nelson, additional

Published
2010
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18. Short-wavelength quantum cascade lasers

Author

Revin, Dmitry G., primary, Zhang, Shiyong, additional, Steer, Matthew J., additional, Airey, Robert J., additional, Krysa, Andrey B., additional, Hopkinson, Mark, additional, Wilson, Luke R., additional, Menzel, Stefan, additional, and Cockburn, John W., additional

Published
2008
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19. Mid-infrared optical coherence tomography

Author

Colley, Christopher S., primary, Hebden, Jeremy C., additional, Delpy, David T., additional, Cambrey, Alison D., additional, Brown, Robert A., additional, Zibik, Evgeny A., additional, Ng, Wing H., additional, Wilson, Luke R., additional, and Cockburn, John W., additional

Published
2007
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21. Fast intraband capture and relaxation in InAs/GaAs self-assembled quantum dots

Author

Zibik, Evgeny A., primary, Menzel, Stefan, additional, Aivaliotis, Pantelis, additional, Carpenter, Ben A., additional, Cockburn, John W., additional, Skolnick, Maurice S., additional, Wilson, Luke R., additional, Grange, Thomas, additional, Ferreira, Robson, additional, Bastard, Gerald, additional, Stehr, Dominik, additional, Winnerl, Stephan, additional, Helm, Manfred, additional, Steer, Matthew J., additional, and Hopkinson, Mark, additional

Published
2007
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24. Broadband quantum cascade lasers and superluminescent diodes

Author

Zibik, Evgeny A., primary, Ng, Wing H., additional, Soulby, Michael R., additional, Wilson, Luke R., additional, Cockburn, John W., additional, Colley, Christopher S., additional, Hebden, Jeremy C., additional, Delpy, David T., additional, Groom, Kristian M., additional, and Hopkinson, Mark, additional

Published
2006
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33. High k-space lasing in a dual-wavelength quantum cascade laser.

Author

Franz, Kale J., Menzel, Stefan, Hoffman, Anthony J., Wasserman, Dan, Cockburn, John W., and Gmachl, Claire

Subjects
INDUSTRIAL lasers, OPTOELECTRONIC devices, SEMICONDUCTORS, DIODES, SEMICONDUCTOR diodes, LIGHT sources, QUANTUM theory
Abstract

The understanding of charge carrier distributions is fundamental to our knowledge of laser systems. In semiconductor lasers, because of the propensity of charge carriers to undergo extremely fast momentum relaxation, they accumulate at band extrema—that is, they have a small wavevector close to k ≈ 0 in direct-gap semiconductors. Conventional understanding suggests that the device-level physics occurs at these band extrema, including population inversion for lasing. This behaviour is universal in diode lasers, interband cascade lasers and quantum cascade lasers. Here, we report on a quantum cascade laser with an energy configuration able to establish local population inversion high in k-space. We observe dual-wavelength emission from two discrete optical transitions. Temperature-dependent performance attributes show that the two transitions are highly coupled; competition for charge carriers is apparent from the anti correlated behaviour. The two optical transitions represent a conventional quantum cascade laser transition at k ≈ 0 and another laser transition from non-thermal electrons near k ≈ 3.6 × 108 m−1. [ABSTRACT FROM AUTHOR]

Published
2009
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34. \lambda \sim 3.35\ \mum Distributed-Feedback Quantum-Cascade Lasers With High-Aspect-Ratio Lateral Grating.

Author

Slight, Thomas J, Tandoi, Giuseppe, Revin, Dmitry G, McKee, Andrew, Zhang, Shiyong Y, Meredith, Wyn, Cockburn, John W, and Ironside, Charles N

Abstract

We report the development of room-temperature distributed-feedback quantum-cascade lasers operating in a single mode in the 3.34 to 3.35 \mu\m wavelength range. First-order lateral gratings with high aspect ratio (the ratio between the grating etch depth and its period) were formed using inductively coupled plasma etching. The as-cleaved lasers emit in pulsed regime with a sidemode suppression ratio of up to 24 dB and a peak single-mode output power of 130 mW from a single facet. [ABSTRACT FROM PUBLISHER]

Published
2011
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