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• Journal article
  Sparks H, Dent L, Bakal C, Behrens A, Salbreux G, Dunsby Cet al., 2020,

  Dual-view oblique plane microscopy (dOPM)

  , Biomedical Optics Express, Vol: 11, Pages: 7204-7220, ISSN: 2156-7085

  We present a new folded dual-view oblique plane microscopy (OPM) techniquetermed dOPM that enables two orthogonal views of the sample to be obtained by translating apair of tilted mirrors in refocussing space. Using a water immersion 40× 1.15 NA primaryobjective, deconvolved image volumes of 200 nm beads were measured to have full width athalf maxima (FWHM) of 0.35±0.04 μm and 0.39±0.02 μm laterally and 0.81±0.07 μm axially.The measured z-sectioning value was 1.33±0.45 μm using light-sheet FWHM in the frames ofthe two views of 4.99±0.58 μm and 4.89±0.63 μm. To qualitatively demonstrate that the systemcan reduce shadow artefacts while providing a more isotropic resolution, a multi-cellularspheroid approximately 100 μm in diameter was imaged.

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• Conference paper
  Gouveia RM, Lepert G, Gupta S, Mohan RR, Paterson C, Connon CJet al., 2020,

  Biomechanical Modulation Therapy: Stem Cell Therapy Without the Stem Cells for the Treatment of Severe Ocular Burns

  , Trans-Agency Scientific Meeting on Developing Medical Countermeasures to Treat the Acute and Chronic Effects of Ocular Chemical Toxicity, Publisher: ELSEVIER IRELAND LTD, Pages: S8-S8, ISSN: 0378-4274
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• Conference paper
  Kerridge-Johns WR, Jaillot J-B, Damzen MJ, 2020,

  Shear plate Interferometer for complex angular momentum field generation

  , Frontiers in Optics, Publisher: OSA, Pages: 1-1

  We show that a shear plate interferometer can generate high purity complex angular momentum states and is simple, cheap, compact, and could operate in wavelength regions where optics for conventional techniques are not available.

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• Conference paper
  Wysoczanski R, Baker JR, Fenwick P, Garcia E, Kumar S, Neil MAA, Dunsby C, French PMW, Barnes PJ, Donnelly LEet al., 2020,

  Analysis of defective phagocytosis in COPD using super-resolution microscopy and automated bacterial quantification

  , Publisher: EUROPEAN RESPIRATORY SOC JOURNALS LTD, ISSN: 0903-1936
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• Journal article
  McCall M, Kinsler P, Tymms V, 2020,

  Catapult Description of Magnetic Fields and Forces

  , PHYSICS TEACHER, Vol: 58, Pages: 416-417, ISSN: 0031-921X
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• Journal article
  Quicke P, Howe CL, Song P, Jadan HV, Song C, Knöpfel T, Neil M, Dragotti PL, Schultz SR, Foust AJet al., 2020,

  Subcellular resolution three-dimensional light-field imaging with genetically encoded voltage indicators

  , Neurophotonics, Vol: 7, ISSN: 2329-4248

  Significance: Light-field microscopy (LFM) enables high signal-to-noise ratio (SNR) and light efficient volume imaging at fast frame rates. Voltage imaging with genetically encoded voltage indicators (GEVIs) stands to particularly benefit from LFM's volumetric imaging capability due to high required sampling rates and limited probe brightness and functional sensitivity. Aim: We demonstrate subcellular resolution GEVI light-field imaging in acute mouse brain slices resolving dendritic voltage signals in three spatial dimensions. Approach: We imaged action potential-induced fluorescence transients in mouse brain slices sparsely expressing the GEVI VSFP-Butterfly 1.2 in wide-field microscopy (WFM) and LFM modes. We compared functional signal SNR and localization between different LFM reconstruction approaches and between LFM and WFM. Results: LFM enabled three-dimensional (3-D) localization of action potential-induced fluorescence transients in neuronal somata and dendrites. Nonregularized deconvolution decreased SNR with increased iteration number compared to synthetic refocusing but increased axial and lateral signal localization. SNR was unaffected for LFM compared to WFM. Conclusions: LFM enables 3-D localization of fluorescence transients, therefore eliminating the need for structures to lie in a single focal plane. These results demonstrate LFM's potential for studying dendritic integration and action potential propagation in three spatial dimensions.

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• Journal article
  Quicke P, Howe CL, Song P, Jadan HV, Song C, Knöpfel T, Neil M, Dragotti PL, Schultz SR, Foust AJet al., 2020,

  Subcellular resolution 3D light field imaging with genetically encoded voltage indicators

  , Neurophotonics, Vol: 7, ISSN: 2329-4248

  Significance: Light-field microscopy (LFM) enables high signal-to-noise ratio (SNR) and light efficient volume imaging at fast frame rates. Voltage imaging with genetically encoded voltage indicators (GEVIs) stands to particularly benefit from LFM’s volumetric imaging capability due to high required sampling rates and limited probe brightness and functional sensitivity.Aim: We demonstrate subcellular resolution GEVI light-field imaging in acute mouse brain slices resolving dendritic voltage signals in three spatial dimensions.Approach: We imaged action potential-induced fluorescence transients in mouse brain slices sparsely expressing the GEVI VSFP-Butterfly 1.2 in wide-field microscopy (WFM) and LFM modes. We compared functional signal SNR and localization between different LFM reconstruction approaches and between LFM and WFM.Results: LFM enabled three-dimensional (3-D) localization of action potential-induced fluorescence transients in neuronal somata and dendrites. Nonregularized deconvolution decreased SNR with increased iteration number compared to synthetic refocusing but increased axial and lateral signal localization. SNR was unaffected for LFM compared to WFM.Conclusions: LFM enables 3-D localization of fluorescence transients, therefore eliminating the need for structures to lie in a single focal plane. These results demonstrate LFM’s potential for studying dendritic integration and action potential propagation in three spatial dimensions.

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• Journal article
  Damzen M, Sathian J, Tawy G, Sheng X, Minassian Aet al., 2020,

  Non-astigmatic Alexandrite ring laser design with wavelength-tunable single-longitudinal-mode operation

  , Journal of the Optical Society of America B: Optical Physics, Vol: 37, Pages: 2185-2192, ISSN: 0740-3224

  This work presents a study of a fully nonastigmatic design of a single-longitudinal-mode, wavelength-tunable, unidirectional alexandrite ring laser cavity and assessment of its performance compared to more complex laser design requiring astigmatism compensation. A “displaced mode” nonastigmatic laser cavity design eliminating astigmatic cavity elements is developed around an alexandrite crystal end-pumped by a low-brightness, high-power red diode laser pump system. Single-longitudinal-mode, continuous-wave operation is demonstrated with output power of 700 mW with an excellent TEM00 mode (M2<1.1) across a wide pump power range. Wavelength tuning from 748–773 nm is produced using a birefringent filter plate. The nonastigmatic alexandrite laser design achieves better spatial quality and resilience to maintain TEM00 operation across wide variation in pump-induced lensing compared to the astigmatic design. To the best of our knowledge, this is the first wavelength-tunable, single-longitudinal-mode operation of a unidirectional alexandrite ring system in a fully nonastigmatic cavity regime.

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• Journal article
  Tawy G, Minassian A, Damzen M, 2020,

  High-power 7.4W TEM00 and wavelength-tunable Alexandrite laser with novel cavity design and efficient fibre-coupled diode-pumping

  , OSA Continuum, Vol: 3, Pages: 1638-1649, ISSN: 2578-7519

  We report significant improvement in the performance of TEM00 alexandrite laser operation by employing high power fibre-coupled red diode pumping, novel cavity design, and active direct Shack-Hartmann wavefront sensor measurement of pump-induced lensing. We demonstrate 12.7 W of laser power in low-order (𝑀2∼5) mode operation from a compact double-end-pumped cavity, and with novel cavity design, a record power of 7.4 W in TEM00 operation with excellent beam quality (𝑀2≤1.1). With single-end pumping, laser power of 4.7 W (𝑀2∼1.3) was achieved with slope efficiencies as high as 54.9 %; a record efficiency for red-diode-pumped alexandrite. Using a birefringent filter, continuous laser wavelength tuning from 725-808 nm is achieved in diffraction-limited TEM00 mode, with laser power of 4.7 W at 765 nm, and >1 W across 730-805 nm, which is a higher tunable power than any other directly diode-pumped vibronic laser, to the best of our knowledge.

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• Journal article
  Sparks H, Dvinskikh L, Firth J, Francis A, Harding S, Paterson C, MacLeod K, Dunsby Cet al., 2020,

  Development a flexible light-sheet fluorescence microscope for high-speed 3D imaging of calcium dynamics and 3D imaging of cellular microstructure

  , Journal of Biophotonics, Vol: 13, ISSN: 1864-063X

  We report a flexible light‐sheet fluorescence microscope (LSFM) designed for studying dynamic events in cardiac tissue at high speed in 3D and the correlation of these events to cell microstructure. The system employs two illumination‐detection modes: the first uses angle‐dithering of a Gaussian light sheet combined with remote refocusing of the detection plane for video‐rate volumetric imaging; the second combines digitally‐scanned light‐sheet illumination with an axially‐swept light‐sheet waist and stage‐scanned acquisition for improved axial resolution compared to the first mode. We present a characterisation of the spatial resolution of the system in both modes. The first illumination‐detection mode achieves dual spectral‐channel imaging at 25 volumes per second with 1024 × 200 × 50 voxel volumes and is demonstrated by time‐lapse imaging of calcium dynamics in a live cardiomyocyte. The second illumination‐detection mode is demonstrated through the acquisition of a higher spatial resolution structural map of the t‐tubule network in a fixed cardiomyocyte cell.

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• Journal article
  Jones B, McGlone ER, Fang Z, Pickford P, Corrêa IR, Oishi A, Jockers R, Inoue A, Kumar S, Görlitz F, Dunsby C, French PMW, Rutter GA, Tan T, Tomas A, Bloom SRet al., 2020,

  Signal bias at glucagon family receptors: rationale and downstream impacts

  <jats:title>Abstract</jats:title> <jats:p> Receptors for the peptide hormones glucagon-like peptide-1 (GLP-1), glucose-dependent insulinotropic polypeptide (GIP) and glucagon (GCG) are important regulators of insulin secretion and energy metabolism. Recently described GLP-1 receptor agonists showing signal bias in favour of cyclic AMP over β-arrestin-2 recruitment have delivered promising results in preclinical studies. Here we first sought to establish the role of β-arrestins in the control of intracellular signalling and trafficking responses at the closely related GLP-1, GIP and GCG receptors, through studies performed in cells depleted of both β-arrestin isoforms. We also generated analogues of GLP-1, GCG and GIP which in some cases showed selective reduction in β-arrestin-2 recruitment <jats:italic>versus</jats:italic> cAMP signalling compared to the parent peptide. Despite reduced acute signalling potency and/or efficacy, some biased GLP-1 and GIP analogues increased maximal sustained insulin secretion from INS-1 832/3 clonal beta cells, although only at high agonist concentrations. Biased GCG analogues did not affect maximal insulin release, or glucose output in hepatocytes. </jats:p>

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• Journal article
  Georgiadou E, Haythorne E, Dickerson MT, Lopez-Noriega L, Pullen TJ, da Silva Xavier G, Davis SPX, Martinez-Sanchez A, Semplici F, Rizzuto R, McGinty JA, French PM, Cane MC, Jacobson DA, Leclerc I, Rutter GAet al., 2020,

  The pore-forming subunit MCU of the mitochondrial Ca2+ uniporter is required for normal glucose-stimulated insulin secretion in vitro and in vivo in mice

  , Diabetologia, Vol: 63, Pages: 1368-1381, ISSN: 0012-186X

  Aims/hypothesisMitochondrial oxidative metabolism is central to glucose-stimulated insulin secretion (GSIS). Whether Ca2+ uptake into pancreatic beta cell mitochondria potentiates or antagonises this process is still a matter of debate. Although the mitochondrial Ca2+ importer (MCU) complex is thought to represent the main route for Ca2+ transport across the inner mitochondrial membrane, its role in beta cells has not previously been examined in vivo.MethodsHere, we inactivated the pore-forming subunit of the MCU, encoded by Mcu, selectively in mouse beta cells using Ins1Cre-mediated recombination. Whole or dissociated pancreatic islets were isolated and used for live beta cell fluorescence imaging of cytosolic or mitochondrial Ca2+ concentration and ATP production in response to increasing glucose concentrations. Electrophysiological recordings were also performed on whole islets. Serum and blood samples were collected to examine oral and i.p. glucose tolerance.ResultsGlucose-stimulated mitochondrial Ca2+ accumulation (p< 0.05), ATP production (p< 0.05) and insulin secretion (p< 0.01) were strongly inhibited in beta cell-specific Mcu-null (βMcu-KO) animals, in vitro, as compared with wild-type (WT) mice. Interestingly, cytosolic Ca2+ concentrations increased (p< 0.001), whereas mitochondrial membrane depolarisation improved in βMcu-KO animals. βMcu-KO mice displayed impaired in vivo insulin secretion at 5 min (p< 0.001) but not 15 min post-i.p. injection of glucose, whilst the opposite phenomenon was observed following an oral gavage at 5 min. Unexpectedly, glucose tolerance was improved (p< 0.05) in young βMcu-KO (<12 weeks), but not in older animals vs WT mice.Conclusions/interpretationMCU is crucial for mitochondrial Ca2+ uptake in pancreatic beta cells and is required for normal GSIS. The apparent compensatory mechanisms that maintain glucose tolerance in βMcu-KO mice remain

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• Journal article
  Fang Z, Chen S, Pickford P, Broichhagen J, Hodson DJ, Corrêa IR, Kumar S, Görlitz F, Dunsby C, French PMW, Rutter GA, Tan T, Bloom SR, Tomas A, Jones Bet al., 2020,

  The influence of peptide context on signaling and trafficking of glucagon-like peptide-1 receptor biased agonists

  , ACS Pharmacology & Translational Science, Vol: 3, Pages: 345-360, ISSN: 2575-9108

  Signal bias and membrane trafficking have recently emerged as important considerations in the therapeutic targeting of the glucagon-like peptide-1 receptor (GLP-1R) in type 2 diabetes and obesity. In the present study, we have evaluated a peptide series with varying sequence homology between native GLP-1 and exendin-4, the archetypal ligands on which approved GLP-1R agonists are based. We find notable differences in agonist-mediated cyclic AMP signaling, recruitment of β-arrestins, endocytosis, and recycling, dependent both on the introduction of a His → Phe switch at position 1 and the specific midpeptide helical regions and C-termini of the two agonists. These observations were linked to insulin secretion in a beta cell model and provide insights into how ligand factors influence GLP-1R function at the cellular level.

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• Journal article
  Gratus J, McCall MW, Kinsler P, 2020,

  Electromagnetism, axions, and topology: A first-order operator approach to constitutive responses provides greater freedom

  , Physical Review A: Atomic, Molecular and Optical Physics, Vol: 101, Pages: 043804-1-043804-18, ISSN: 1050-2947

  We show how the standard constitutive assumptions for the macroscopic Maxwell equations can be relaxed. This is done by arguing that the Maxwellian excitation fields (D, H) should be dispensed with, on the grounds that they (a) cannot be measured, and (b) act solely as gauge potentials for the charge and current. In the resulting theory, it is only the links between the fields (E, B) and the charge and current (ρ, J) that matter; and so we introduce appropriate linear operator equations that combine the Gauss and Maxwell-Ampère equations with the constitutive relations, eliminating (D, H). The result is that we can admit more types of electromagnetic media, notably, these relations can allow coupling in the bulk to a homogeneous axionic material; in contrast to standard electromagnetism where any homogeneous axionlike field is completely decoupled in the bulk, and only accessible at boundaries. We also consider a wider context, including the role of topology, extended nonaxionic constitutive parameters, and treatment of Ohmic currents. A range of examples including an axionic response material is presented, including static electromagnetic scenarios, a possible metamaterial implementation, and how the transformation optics paradigm would be modified. Notably, these examples include one where topological considerations make it impossible to model using (D, H).

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• Conference paper
  Geberbauer JWT, Kerridge-Johns WR, Damzen MJ, 2020,

  Q-switched vortex laser using a Sagnac interferometer as an output coupler

  , Solid State Lasers XXIX - Technology and Devices, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, Pages: 1-10, ISSN: 0277-786X

  Vortex lasers are an attractive prospect for efficient generation of high-quality beams in compact, environmentally robust, and turnkey systems. We demonstrate conversion of a Q-switched, diode-pumped Nd:YVO4, TEM00 Gaussian laser into a vortex laser source by replacing the output coupling mirror by a vortex output coupler (VOC) based on an imbalanced Sagnac interferometer. The Q-switched VOC laser generated a vortex output with 5.1 W average power, slope efficiency of 46% at 150 kHz pulse repetition rate, only marginally lower than the 5.4 W and 49% slope efficiency of the plane mirror laser. Vortex handedness was switchable with a single VOC control without loss of vortex power. In both handedness cases the vortex mode quality was assessed to be excellent by detailed analysis of vortex phase profile and propagation characteristics and comparison to an ideal vortex. The power scaling potential of the VOC was demonstrated in a higher power cavity, achieving a vortex output power of 14.3 W and a slope efficiency of 55%. Further investigation verified the ability for the VOC laser to self-mode-filter the intracavity mode, showing maintenance of high TEM00 quality even after introducing deliberate mode to pump size mismatch, when the equivalent plane mirror laser becomes multimode. This work highlights the potential of the VOC as a simple route to high powered structured light sources using just standard high-power handling mirror components and its self-mode-filtering property to compensate intra-cavity spatial mode degradation when power-scaling.

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• Journal article
  Geberbauer J, Kerridge-Johns WR, Damzen MJ, 2020,

  Q-switched laser with self-mode-filtering interferometric vortex output coupler

  , OSA Continuum, Vol: 3, Pages: 204-213, ISSN: 2578-7519

  Vortex lasers are an attractive prospect for efficient generation of high-quality beams in compact, environmentally robust, and turnkey systems. We demonstrate conversion of a Q-switched, diode-pumped Nd:YVO4, TEM00 Gaussian laser into a vortex laser source by replacing the output coupling mirror by a vortex output coupler (VOC) based on an imbalanced Sagnac interferometer. The Q-switched VOC laser generated a vortex output with 5.1 W average power, slope efficiency of 46% at 150 kHz pulse repetition rate, only marginally lower than the 5.4W and 49% slope efficiency of the plane mirror laser. Vortex handedness was switchable with a single VOC control without loss of vortex power. In both handedness cases, the vortex mode quality was assessed to be excellent by detailed analysis of the vortex phase profile and propagation characteristics and comparison to an ideal vortex. Further investigation verified the ability for the VOC laser to self-mode-filter the intracavity mode, showing maintenance of high TEM00 quality even after introducing deliberate mode to pump size mismatch, when the equivalent plane mirror laser becomes multimode. This work highlights the potential of the VOC as a simple route to high powered structured light sources using just standard high-power handling mirror components and its self-mode-filtering property to compensate intra-cavity spatial mode degradation when power-scaling.

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  Lagarto JL, Nickdel MB, Kelly DJ, Price A, Nanchahal J, Dunsby C, French P, Itoh Yet al., 2020,

  Autofluorescence lifetime reports cartilage damage in osteoarthritis

  , Scientific Reports, Vol: 10, ISSN: 2045-2322

  Osteoarthritis (OA) is the most common arthritis and its hallmark is degradation of articular cartilage by proteolytic enzymes leading to loss of joint function. It is challenging to monitor the status of cartilage in vivo and this study explores the use of autofluorescence lifetime (AFL) measurements to provide a label-free optical readout of cartilage degradation that could enable earlier detection and evaluation of potential therapies. We previously reported that treatment of ex vivo porcine cartilage with proteolytic enzymes resulted in decreased AFL. Here we report changes in AFL of ex vivo mouse knee joints, porcine metacarpophalangeal joints, normal human metatarsophalangeal articular tissue and human OA tibial plateau tissues measured with or without treatment using a compact single-point time resolved spectrofluorometer. Our data show that proteolytically damaged areas in porcine metacarpophalangeal joints present a reduced AFL and that inducing aggrecanases in mouse and human joints also significantly reduces AFL. Further, human cartilage from OA patients presents a significantly lower AFL compared to normal human cartilage. Our data suggest that AFL can detect areas of cartilage erosion and may potentially be utilised as a minimally-invasive diagnostic readout for early stage OA in combination with arthroscopy devices.

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  Harput S, Christensen-Jeffries K, Ramalli A, Brown J, Zhu J, Zhang G, Leow C, Toulemond M, Boni E, Tortoli P, Eckersley R, Dunsby C, Tang M-Xet al., 2020,

  3-D super-resolution ultrasound imaging with a 2-D sparse array

  , IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, Vol: 67, Pages: 269-277, ISSN: 0885-3010

  High-frame-rate 3-D ultrasound imaging technology combined with super-resolution processing method can visualize 3-D microvascular structures by overcoming the diffraction-limited resolution in every spatial direction. However, 3-D super-resolution ultrasound imaging using a full 2-D array requires a system with a large number of independent channels, the design of which might be impractical due to the high cost, complexity, and volume of data produced. In this study, a 2-D sparse array was designed and fabricated with 512 elements chosen from a density-tapered 2-D spiral layout. High-frame-rate volumetric imaging was performed using two synchronized ULA-OP 256 research scanners. Volumetric images were constructed by coherently compounding nine-angle plane waves acquired at a pulse repetition frequency of 4500 Hz. Localization-based 3-D super-resolution images of two touching subwavelength tubes were generated from 6000 volumes acquired in 12 s. Finally, this work demonstrates the feasibility of 3-D super-resolution imaging and super-resolved velocity mapping using a customized 2-D sparse array transducer.

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  Kumar S, Patel AK, 2020,

  Purification and Characterization of Prolyl Hydroxylase 3/Pyruvate Kinase Isoform 2 Protein Complex.

  , Mol Biotechnol, Vol: 62, Pages: 111-118

  The prolyl hydroxylase 3 (PHD3) protein is less abundant in normal oxygen conditions (normoxia) but increases under deficient oxygen condition (hypoxia). Since cancerous cells often thrive in hypoxic conditions and predominantly express the Pyruvate kinase isoforms 2 (PKM2), the PHD3/PKM2 interaction might be particularly important in cancer development. In the present study, the PHD3/PKM2 complex was co-expressed and purified by size-exclusion chromatography. The interaction of PHD3 with PKM2 was confirmed in Native gel as well as western blot analysis. The PHD3/PKM2 complex formed discreet crystals under suitable conditions, and diffraction data revealed that crystal belonged to the P1 space group with 3.0 Å resolution. This is the first crystal report of PHD3/PKM2 complex as well as this study demonstrates a direct physical binding through protein-protein interaction. The structural analysis of complex will provide the information regarding the amino acid residues critical for the catalytic mechanism. Based on the structural information thus obtained, pharmacological interference with the PHD3/PKM2 interaction could be used as a novel strategy to reduce the cancer progression.

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• Conference paper
  Jones DC, Alexandrov Y, Curry N, Kumar S, Lanigan P, McGuinness C, Dale M, Twitchen D, Fisher D, Neil M, Dunsby C, French Pet al., 2020,

  A multidimensional imaging and spectroscopic microscope

  We present a multidimensional luminescence microscope for characterisation of emission from defects in diamond. We have applied the photoluminescence, hyperspectral and time-resolved luminescence imaging capabilities of this novel instrument to natural and synthetic diamonds.

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• Conference paper
  Zhang G, Toulemonde M, Riemer K, Zhu J, Harput S, Christensen-Jeffries K, Zhu Z, Wang B, Leow CH, Weinberg P, Dunsby C, Tang M-Xet al., 2020,

  Effects of Mechanical Index on Repeated Sparse Activation of Nanodroplets In Vivo

  , IEEE International Ultrasonics Symposium (IEEE IUS), Publisher: IEEE, ISSN: 1948-5719
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• Conference paper
  Harput S, Toulemonde M, Ramalli A, Christensen-Jeffries K, Boni E, Tortoli P, Dunsby C, Tang M-Xet al., 2020,

  Quantitative Microvessel Analysis with 3-D Super-Resolution Ultrasound and Velocity Mapping

  , IEEE International Ultrasonics Symposium (IEEE IUS), Publisher: IEEE, ISSN: 1948-5719
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  • Citations: 5
• Conference paper
  Tawy G, Wang J, Damzen MJ, 2020,

  Thermal and population induced lensing in Alexandrite lasers

  , Conference on Laser Resonators, Microresonators, and Beam Control XXII, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, ISSN: 0277-786X
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  • Citations: 1
• Conference paper
  Garcia E, Guo W, Kumar S, Gorlitz F, Sparks H, Alexandrov Y, Munro I, Kelly DJ, Warren S, Chennell G, Sardini A, Carling D, Thorpe P, Dunsby C, French PMWet al., 2020,

  FLIM, FRET and high content analysis

  , Symposium on Multiphoton Microscopy in the Biomedical Sciences XX held at SPIE BiOS Conference, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, ISSN: 0277-786X
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• Conference paper
  Codescu M-A, Kornilov O, Nibbering ETJ, 2020,

  Switching Between Ultrafast Proton Vacancy and Excess Proton Transfer along a Methanol Solvent Bridge

  , International Conference on Ultrafast Phenomena, Publisher: Optica Publishing Group, Pages: M4B.13-M4B.13

  <jats:p>We show how ultrafast acid-base proton transfer neutralization reactions along methanol solvent bridges can be steered from a sequential methoxide to a sequential excess proton transport pathway.</jats:p>

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  Tawy G, Damzen MJ, 2020,

  Ultra-compact &gt;100kHz Q-switched Alexandrite lasers

  , Conference on Solid State Lasers XXIX - Technology and Devices, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, ISSN: 0277-786X
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  Sathian J, Abadi MM, Damzen MJ, Ghassemlooy Zet al., 2020,

  Communication characteristics of high-brightness light sources based on luminescence concentration

  , 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP), Publisher: IEEE
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• Conference paper
  Gorlitz F, Wysoczanski R, Kumar S, Lightley J, Garcia E, Alexandrov Y, Munro I, Johnson S, Kehoe M, Hollick C, Graham J, Donnelly L, Barnes P, Dunsby C, Neil MAA, French PMWet al., 2020,

  Towards easier, faster super-resolved microscopy

  , Conference on Single Molecule Spectroscopy and Superresolution Imaging XIII, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, ISSN: 0277-786X
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  Tawy G, Damzen MJ, 2020,

  Narrow linewidth tunable and dual wavelength compact Alexandrite laser

  , Conference on Solid State Lasers XXIX - Technology and Devices, Publisher: SPIE-INT SOC OPTICAL ENGINEERING, ISSN: 0277-786X
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  Chandran A, Runcorn T, Murray R, Taylor Jet al., 2019,

  Nanosecond pulsed 620 nm source by frequency-doubling a phosphosilicate Raman fiber amplifier

  , Optics Letters, Vol: 44, Pages: 6025-6028, ISSN: 0146-9592

  We demonstrate a nanosecond pulsed source at 620 nm with watt-level average power by frequency-doubling a 1240 nm phosphosilicate Raman fiber amplifier. A gain-switched laser diode operating at 1064 nm is amplified in an ytterbium fiber master oscillator power amplifier system and then converted to 1240 nm using a phosphosilicate Raman fiber amplifier with a conversion efficiency of up to 66%. The Raman fiber amplifier is seeded with a continuous-wave 1240 nm laser diode to obtain narrow-linewidth radiation, which is subsequently frequency-doubled in a periodically poled lithium tantalate crystal. A maximum average power of 1.5 W is generated at 620 nm, corresponding to a pulse energy of 300 nJ at a repetition rate of 5 MHz. The source has excellent beam quality (M2≤1.16) and an optical efficiency (1064 nm to 620 nm) of 20%, demonstrating an effective architecture for generating red pulsed light for biomedical imaging applications.

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