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Träfflista för sökning "WFRF:(Galletly C) "

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1.	Trubetskoy, V, et al. (author) Mapping genomic loci implicates genes and synaptic biology in schizophrenia 2022 In: Nature. - : Springer Science and Business Media LLC. - 1476-4687 .- 0028-0836. ; 604:7906, s. 502-508 Journal article (peer-reviewed)
2.	Jernbom Falk, August, et al. (author) BEYOND NEURORECEPTOR AUTOIMMUNITY : PERIPHERAL AUTOANTIBODY PROFILES ARE ASSOCIATED WITH CLINICAL FEATURES IN PSYCHOTIC DISORDERS 2022 In: Australian and New Zealand journal of psychiatry (Print). - : SAGE PUBLICATIONS LTD. - 0004-8674 .- 1440-1614. ; 56:1_SUPPL, s. 90-91 Journal article (other academic/artistic)
3.	Dunsby, C., et al. (author) An electronically tunable ultrafast laser source applied to fluorescence imaging and fluorescence lifetime imaging microscopy 2004 In: Journal of Physics D. - : IOP Publishing. - 0022-3727 .- 1361-6463. ; 37:23, s. 3296-3303 Journal article (peer-reviewed)abstract Fluorescence imaging is used widely in microscopy and macroscopic imaging applications for fields ranging from biomedicine to materials science. A critical component for any fluorescence imaging system is the excitation source. Traditionally, wide-field systems use filtered thermal or arc-generated white light sources, while point scanning confocal microscope systems require spatially coherent (point-like) laser sources. Unfortunately, the limited range of visible wavelengths available from conventional laser sources constrains the design and usefulness of fluorescent probes in confocal microscopy. A 'hands-off' laser-like source, electronically tunable across the visible spectrum, would be invaluable for fluorescence imaging and provide new opportunities, e.g. automated excitation fingerprinting and in situ measurement of excitation cross-sections. Yet more information can be obtained using fluorescence lifetime imaging (FLIM), which requires that the light source be pulsed or rapidly modulated. We show how a white light continuum, generated by injecting femtosecond optical radiation into a micro-structured optical fibre, coupled with a simple prism-based tunable filter arrangement, can fulfil all these roles as a continuously electronically tunable (435-1150 nm) visible ultrafast light source in confocal, wide-field and FLIM systems.

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Type of publication: journal article (3)

Type of content: peer-reviewed (2); other academic/artistic (1)

Author/Editor: Liu, D. (1); Wu, Y. (1); Yu, X. (1); Alexander, M. (1); Adams, M. (1); Kim, M. (1); show more...; Watanabe, K. (1); Steen, NE (1); Agartz, I (1); Andreassen, OA (1); Melle, I (1); Pardinas, AF (1); Santoro, ML (1); Athanasiu, L (1); Djurovic, S (1); Roe, C (1); Zhang, W. (1); Baune, BT (1); Lee, PH (1); McGrath, JJ (1); Roth, J. (1); Mallet, J. (1); Molina, E. (1); Nilsson, Peter (1); Sullivan, PF (1); Lee, J. (1); Yang, J. (1); Breen, G (1); Ikeda, M. (1); Powell, J (1); MCDONALD, C (1); Mortensen, PB (1); Corvin, A (1); Pato, CN (1); Pato, MT (1); Kirov, G (1); Rujescu, D (1); St Clair, D (1); Werge, T (1); Hultman, CM (1); Delisi, LE (1); Stroup, TS (1); Webb, BT (1); Fanous, AH (1); Magnusson, PKE (1); Cheng, W. (1); Giusti-Rodriguez, P (1); Alizadeh, BZ (1); Ophoff, RA (1); Cohen, D (1); show less...

University: Royal Institute of Technology (2); Karolinska Institutet (1)

Language: English (3)

Research subject (UKÄ/SCB): Medical and Health Sciences (1)

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