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2025 Conference Publication Experimental creation of programmable arbitrary spatiotemporal exotic beamsKomonen, Andrew V., Ploschner, Martin, Morote, Marcos M., Dahl, Daniel S., Fontaine, Nicolas K., Carpenter, Joel and Mounaix, Mickael (2025). Experimental creation of programmable arbitrary spatiotemporal exotic beams. SPIE. doi: 10.1117/12.3038961 |
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2024 Conference Publication Programable High-dimensional Quantum Gates via MPLCDahl, Daniel S., Plöschner, Martin, Fontaine, Nicolas K., Romero, Jacqui and Carpenter, Joel (2024). Programable High-dimensional Quantum Gates via MPLC. Washington, D.C.: Optica Publishing Group. doi: 10.1364/fio.2024.fm5c.5 |
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2023 Conference Publication Spatial tomography of light resolved in time, spectrum, and polarizationPloschner, Martin, Morote, Marcos M., Dahl, Daniel S., Mounaix, Mickael, Light, Greta, Rakic, Aleksandar D. and Carpenter, Joel (2023). Spatial tomography of light resolved in time, spectrum, and polarization. Smart Photonic and Optoelectronic Integrated Circuits 2023;, San Francisco, CA USA, 28 January-3 February 2023. Washington, DC USA: SPIE. doi: 10.1117/12.2658893 |
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2023 Conference Publication Referenceless, low-coherence, multimode fiber characterizationMorote, M. Maestre, Plöschner, M., Mounaix, M., Komonen, A.V and Carpenter, J. (2023). Referenceless, low-coherence, multimode fiber characterization. 2023 Conference on Lasers and Electro-Optics, CLEO 2023, San Jose, CA United States, 7 - 12 May 2023. Washington, DC United States: Optica Publishing Group. doi: 10.1364/cleo_si.2023.sm3l.1 |
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2022 Journal Article Spatial tomography of light resolved in time, spectrum, and polarisationPlöschner, Martin, Morote, Marcos Maestre, Dahl, Daniel Stephen, Mounaix, Mickael, Light, Greta, Rakić, Aleksandar D. and Carpenter, Joel (2022). Spatial tomography of light resolved in time, spectrum, and polarisation. Nature Communications, 13 (1) 4294, 1-10. doi: 10.1038/s41467-022-31814-2 |
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2022 Journal Article Formation of nanochannels in sapphire with ultrashort Bessel pulsesLavin-Varela, Sebastian, Madden, Steve, Yan, Kunlun, Ploschner, Martin, Rode, Andrei V. and Rapp, Ludovic (2022). Formation of nanochannels in sapphire with ultrashort Bessel pulses. Optics Express, 30 (4), 6016-6136. doi: 10.1364/OE.449230 |
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2022 Conference Publication High-dimensional Stokes-space spatial beam analyzerDahl, Daniel S., Plöschner, Martin, Mounaix, Mickael, Fontaine, Nicolas K. and Carpenter, Joel (2022). High-dimensional Stokes-space spatial beam analyzer. Digital Holography and 3-D Imaging 2022, Cambridge, United Kingdom, 1–4 August 2022. Washington, D.C.: Optica Publishing Group (formerly OSA). doi: 10.1364/dh.2022.w5a.50 |
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2021 Conference Publication High-dimensional Stokes-space spatial beam analyzerDahl, Daniel S., Plöschner, Martin, Fontaine, Nicolas K. and Carpenter, Joel (2021). High-dimensional Stokes-space spatial beam analyzer. Frontiers in Optics 2021, Washington, DC, United States, 1–4 November 2021. Optica Publishing Group (formerly OSA). doi: 10.1364/FIO.2021.FTu6C.2 |
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2020 Journal Article Simultaneous super-linear excitation-emission and emission depletion allows imaging of upconversion nanoparticles with higher sub-diffraction resolutionPloschner, Martin, Denkova, Denitza, De Camillis, Simone, Das, Minakshi, Parker, Lindsay M., Zheng, Xianlin, Lu, Yiqing, Ojosnegros, Samuel and Piper, James A. (2020). Simultaneous super-linear excitation-emission and emission depletion allows imaging of upconversion nanoparticles with higher sub-diffraction resolution. Optics Express, 28 (16), 24308-24326. doi: 10.1364/OE.400651 |
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2020 Conference Publication A practical theoretical framework for optimizing spontaneous super-resolution on confocal microscopesPloschner, Martin, Denkova, Denitza, Das, Minakshi, Parker, Lindsay M., Zheng, Xianlin, Lu, Yiqing, Orth, Antony, Packer, Nicolle H. and Piper, James A. (2020). A practical theoretical framework for optimizing spontaneous super-resolution on confocal microscopes. Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XVII, San Francisco, CA United States, 2–3 February 2020. Bellingham, WA United States: SPIE. doi: 10.1117/12.2544972 |
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2020 Conference Publication Achieving spontaneous super-resolution in a confocal microscope by exploiting super-linear emittersDenkova, Denitza, Ploschner, Martin, Das, Minakshi, Parker, Lindsay M., Zheng, Xianlin, Lu, Yiqing, Orth, Antony, Packer, Nicolle H. and Piper, James A. (2020). Achieving spontaneous super-resolution in a confocal microscope by exploiting super-linear emitters. Single Molecule Spectroscopy and Superresolution Imaging XIII, San Francisco, CA United States, 1–2 February 2020. Bellingham, WA United States: SPIE. doi: 10.1117/12.2544364 |
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2020 Conference Publication Experimental evaluation of numerical modelling of a first-order Bessel-Gaussian optical funnelLavin-Varela, Sebastian, Ploschner, Martin, Awel, Salah, Kirian, Richard A., Horke, Daniel A., Küpper, Jochen, Chapman, H. N. and Rode, A. V. (2020). Experimental evaluation of numerical modelling of a first-order Bessel-Gaussian optical funnel. Pacific Rim Conference on Lasers and Electro-Optics , Sydney, Australia, 3–5 August 2020. Washington, DC, United States: OSA. doi: 10.1364/cleopr.2020.c12e_3 |
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2020 Journal Article Controlling the non-linear emission of upconversion nanoparticles to enhance super-resolution imaging performanceDe Camillis, Simone, Ren, Peng, Cao, Yueying, Plöschner, Martin, Denkova, Denitza, Zheng, Xianlin, Lu, Yiqing and Piper, James A. (2020). Controlling the non-linear emission of upconversion nanoparticles to enhance super-resolution imaging performance. Nanoscale, 12 (39), 20347-20355. doi: 10.1039/d0nr04809g |
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2020 Conference Publication A Computational Aperture Stop for Optical Fiber BundlesOrth, Antony, Ploschner, Martin, Wilson, Emma R., Maksymov, Ivan and Gibson, Brant C. (2020). A Computational Aperture Stop for Optical Fiber Bundles. OSA Imaging and Applied Optics Congress 2020, Washington, DC United States, 22–26 June 2020. Washington, DC United States: OSA. doi: 10.1364/3d.2020.jw5a.8 |
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2020 Conference Publication High-dimensional quantum gates for azimuthal modesDahl, Daniel S., Romero, Jacquiline, Ploschner, Martin, Fontaine, Nicolas K. and Carpenter, Joel (2020). High-dimensional quantum gates for azimuthal modes. Conference on Lasers and Electro-Optics/Pacific Rim 2020, Sydney, Australia, 3–5 August 2020. Washington, DC, United States: OSA. doi: 10.1364/cleopr.2020.p5_2 |
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2019 Journal Article 3D sub-diffraction imaging in a conventional confocal configuration by exploiting super-linear emittersDenkova, Denitza, Ploschner, Martin, Das, Minakshi, Parker, Lindsay M., Zheng, Xianlin, Lu, Yiqing, Orth, Antony, Packer, Nicolle H. and Piper, James A. (2019). 3D sub-diffraction imaging in a conventional confocal configuration by exploiting super-linear emitters. Nature Communications, 10 (1) 3695, 3695. doi: 10.1038/s41467-019-11603-0 |
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2019 Journal Article Optical fiber bundles: Ultra-slim light field imaging probesOrth, A., Ploschner, M., Wilson, E. R., Maksymov, I. S. and Gibson, B. C. (2019). Optical fiber bundles: Ultra-slim light field imaging probes. Science Advances, 5 (4) eaav1555, eaav1555. doi: 10.1126/sciadv.aav1555 |
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2019 Conference Publication Your optical fiber bundle microendoscope is a 3D light field microscopeOrth, Antony, Ploschner, Martin, Wilson, Emma, Maksymov, Ivan and Gibson, Brant C. (2019). Your optical fiber bundle microendoscope is a 3D light field microscope. Endoscopic Microscopy XIV, San Francisco, CA United States, 2–4 February 2019. Bellingham, WA United States: SPIE. doi: 10.1117/12.2507547 |
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2019 Conference Publication Developing a needle-like optical funnel: Numerical modellingLavin-Varela, Sebastian, Ploschner, Martin and Rode, Andrei (2019). Developing a needle-like optical funnel: Numerical modelling. Conference on Optical Trapping and Optical Micromanipulation XVI, San Diego, CA United States, 11-15 August 2018. Bellingham, WA United States: SPIE. doi: 10.1117/12.2530185 |
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2018 Journal Article Subcellular spatial resolution achieved for deep-brain imaging in vivo using a minimally invasive multimode fiberVasquez-Lopez, Sebastian A., Turcotte, Raphaël, Koren, Vadim, Plöschner, Martin, Padamsey, Zahid, Booth, Martin J., Čižmár, Tomáš and Emptage, Nigel J. (2018). Subcellular spatial resolution achieved for deep-brain imaging in vivo using a minimally invasive multimode fiber. Light: Science & Applications, 7 (1) 110. doi: 10.1038/s41377-018-0111-0 |
