ARTICLES
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M. Trappen et al.:
'Aligned multiphoton lithography'
Proc. SPIE PC12012, Advanced Fabrication Technologies for Micro/Nano Optics and Photonics XV, PC120120N (5 March 2022). Open in new tab
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S. Richter et al.:
'Multi-channel 400 kHz 840nm swept-source OCT system based on a photonic-electronic integrated circuit'
Proc. SPIE PC11948, Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXVI, PC119480K (7 March 2022). Open in new tab
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R. Hainberger et al.:
'Interfacing photonic building blocks for silicon nitride photonic-integrated circuit-based sensing devices'
Proc. SPIE PC12007, Optical Interconnects XXII, PC120070K (5 March 2022). Open in new tab
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E. Rank et al.:
'In vivo retinal swept source optical coherence tomography using photonic integrated circuits centered at 840 nm'
Proc. SPIE PC11941, Ophthalmic Technologies XXXII, PC1194110 (7 March 2022). Open in new tab
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E. Rank et al.:
'Miniaturizing optical coherence tomography'
Translational Biophotonics e202100007 (2022). Open in new tab
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R. Leitgeb et al.:
'Enhanced medical diagnosis for dOCTors – a perspective of optical coherence tomography'
Journal of Biomedical Optics, Journal of Biomedical Optics 26(10), 100601 (2021). Open in new tab
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E. Rank et al.:
'In vivo human retinal swept source optical coherence tomography and angiography at 840 nm with a CMOS compatible photonic integrated circuit'
Sci Rep 11, 21052 (2021). Open in new tab
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S. Nevlacsil et al.:
'Multi-channel swept source optical coherence tomography concept based on photonic integrated circuits'
Opt. Express 28, 32468-32482 (2020). Open in new tab
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S. Nevlacsil et al.:
'Broadband low loss and ultra-low crosstalk waveguide crossings based on a multimode interferometer for 840 nm operation'
OSA Continuum 3, 334-344 (2020). Open in new tab
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S. Nevlacsil et al.:
'Broadband SiN asymmetric directional coupler for 840 nm operation'
OSA Continuum 1, 1324-1331 (2018). Open in new tab