Christin Grill

Doktorandin / PhD Student


Universität zu Lübeck
Institut für Biomedizinische Optik

Maria-Goeppert-Str. 1
23562 Lübeck
Gebäude MFC 1, Raum 2.19

Email:
Phone:
+49 451 3101 3229
Fax:
+49 451 3101 3233



Publications

2021

  • C. Grill, S. Lotz, T. Blömker, M. Schmidt, W. Draxinger, J.P. Kolb, C. Jirauschek and R. Huber: Superposition of two independent FDML lasers. in 2021 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference (CLEO/Europe-EQEC), pp. 1-1, 2021
    BibTeX Link
    @inproceedings{grill2021superposition,
      title={Superposition of two independent FDML lasers},
      author={C. Grill, S. Lotz, T. Bl{\"o}mker, M. Schmidt, W. Draxinger, J.P. Kolb, C. Jirauschek and R. Huber},
      booktitle={2021 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference (CLEO/Europe-EQEC)},
      pages={1--1},
      year={2021},
      organization={IEEE},
    keywords={  AG-Huber_FDML},
    url = {"https://ieeexplore.ieee.org/abstract/document/9542126"}
    }
  • P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, M. M. Bonsanto, C. Hagel, R. Huber and R. Brinkmann: Comparison of two optical coherence tomography systems to identify human brain tumor. European Conferences on Biomedical Optics 2021 (ECBO), pp. EW1C.7, Optical Society of America, 2021
    BibTeX Link
    @inproceedings{Strenge:21,
    author = {P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, M. M. Bonsanto, C. Hagel, R. Huber and R. Brinkmann},
    journal = {European Conferences on Biomedical Optics 2021 (ECBO)},
    keywords = {AG-Huber_OCT; Absorption coefficient; Attenuation coefficient; Fourier domain mode locking; Multiple scattering; Optical coherence tomography; Spectral domain optical coherence tomography},
    pages = {EW1C.7},
    publisher = {Optical Society of America},
    title = {Comparison of two optical coherence tomography systems to identify human brain tumor},
    year = {2021},
    url = {http://www.osapublishing.org/abstract.cfm?URI=ECBO-2021-EW1C.7},
    abstract = {The identification of ex vivo brain tumor tissue was investigated with two different optical coherence tomography systems exploiting two optical parameters. The optical parameters were calculated from semantically labelled OCT B-scans.},
    }
  • Strenge, P;Lange, B;Grill, C;Draxinger, W;Danicke, V;Theisen-Kunde, D;Handels, H.;Bonsanto, M;Hagel, C;Huber, R and Brinkman, R: Comparison of two optical coherence tomography systems to identify human brain tumor. in ECBO, Osa, 021
    BibTeX
    @inproceedings{Strenge2021B,
       author = {Strenge, P;Lange, B;Grill, C;Draxinger, W;Danicke, V;Theisen-Kunde, D;Handels, H.;Bonsanto, M;Hagel, C;Huber, R and Brinkman, R},
       title = {Comparison of two optical coherence tomography systems to identify human brain tumor},
       booktitle = {ECBO},
       publisher = {Osa},
    Year = {2021}
       type = {Conference Proceedings}
    }
    
  • S. Lotz, C. Grill, M. Göb, W. Draxinger, J.P. Kolb and R. Huber: Cavity length control for Fourier domain mode locked (FDML) lasers with µm precision. Biomedical Optics Express, no. 12(5), pp. 2604-2616, 2021
    BibTeX Link
    @article{Lotz2021,
       author = {S. Lotz, C. Grill, M. Göb, W. Draxinger, J.P. Kolb and R. Huber},
       title = {Cavity length control for Fourier domain mode locked (FDML) lasers with µm precision},
       journal = {Biomedical Optics Express},
       volume = {12(5)},
       keywords={AG-Huber_FDML},
       pages = {2604-2616},
       url = {https://doi.org/10.1364/BOE.422898},
       year = {2021},
       type = {Journal Article}
    }
    
  • M. Schmidt, C. Grill, S. Lotz, T. Pfeiffer, R. Hubert and C. Jirauschek: Intensity pattern types in broadband Fourier domain mode-locked (FDML) lasers operating beyond the ultra-stable regime. Applied Physics B, no. 127, pp. 60, 2021
    BibTeX Link
    @Article{Schmidt2021,
      author   = {M. Schmidt, C. Grill, S. Lotz, T. Pfeiffer, R. Hubert and C. Jirauschek},
      journal  = {Applied Physics B},
      title    = {Intensity pattern types in broadband Fourier domain mode-locked (FDML) lasers operating beyond the ultra-stable regime},
      year     = {2021},
      issn     = {1432-0649},
      number   = {5},
      pages    = {60},
      volume   = {127},
    keywords={AG-Huber_FDML},
      abstract = {We report on the formation of various intensity pattern types in detuned Fourier domain mode-locked (FDML) lasers and identify the corresponding operating conditions. Such patterns are a result of the complex laser dynamics and serve as an ideal tool for the study of the underlying physical processes as well as for model verification. By numerical simulation we deduce that the formation of patterns is related to the spectral position of the instantaneous laser lineshape with respect to the transmission window of the swept bandpass filter. The spectral properties of the lineshape are determined by a long-term accumulation of phase-offsets, resulting in rapid high-amplitude intensity fluctuations in the time domain due to the narrow intra-cavity bandpass filter and the fast response time of the semiconductor optical amplifier gain medium. Furthermore, we present the distribution of the duration of dips in the intensity trace by running the laser in the regime in which dominantly dips form, and give insight into their evolution over a large number of roundtrips.},
      doi      = {10.1007/s00340-021-07600-1},
      refid    = {Schmidt2021},
    }
  • C. Grill, T. Blömker, M. Schmidt, D. Kastner, T. Pfeiffer, J.P. Kolb, W. Draxinger, S. Karpf, C. Jirauschek and R. Huber: A detailed analysis of the coherence and field properties of an FDML laser by time resolved beat signal measurements. in Fiber Lasers XVIII: Technology and Systems, no. 11665, pp. 242 - 247, SPIE, 2021
    BibTeX Link
    @inproceedings{Grill2021,
    author = {C. Grill, T. Blömker, M. Schmidt, D. Kastner, T. Pfeiffer, J.P. Kolb, W. Draxinger, S. Karpf, C. Jirauschek and R. Huber},
    title = {{A detailed analysis of the coherence and field properties of an FDML laser by time resolved beat signal measurements}},
    volume = {11665},
    booktitle = {Fiber Lasers XVIII: Technology and Systems},
    editor = {Michalis N. Zervas},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {242 -- 247},
    keywords = {AG-Huber_FDML, Fourier domain mode locking, FDML laser, laser beating , tunable laser, optical coherence tomography, OCT},
    year = {2021},
    URL = {hhttps://doi.org/10.1117/12.2578293}
    }
  • P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, M. Bonsanto, C. Hagel, R. Huber and R. Brinkmann: Characterization of brain tumor tissue with 1310 nm optical coherence tomography. in Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV, no. 11630, pp. 74 - 80, SPIE, 2021
    BibTeX Link
    @inproceedings{Strenge2021A,
    author = {P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, M. Bonsanto, C. Hagel, R. Huber and R. Brinkmann},
    title = {{Characterization of brain tumor tissue with 1310 nm optical coherence tomography}},
    volume = {11630},
    booktitle = {Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV},
    editor = {Joseph A. Izatt and James G. Fujimoto},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {74 -- 80},
    abstract = {The separation of tumorous brain tissue and healthy brain tissue is still a big challenge in the field of neurosurgery, especially when it comes to the detection of different infiltration grades of glioblastoma multiforme at the tumor border. On the basis of a recently created labelled OCT dataset of ex vivo glioblastoma multiforme tumor samples the detection of brain tumor tissue and the identification of zones with varying degrees of infiltration of tumor cells was investigated. The identification was based on the optical properties, which were extracted by an exponential fit function. The results showed that a separation of tumorous tissue and healthy white matter based on these optical properties is possible. A support vector machine was trained on the optical properties to separate tumor from healthy white matter tissue, which achieved a sensitivity of 91% and a specificity of 76% on an independent training dataset.},
    keywords = {AG-Huber_OCT, optical coherence tomography, OCT, glioblastoma multiforme, MHz-OCT, brain imaging, tumor, neurosurgery},
    year = {2021},
    URL = {hhttps://doi.org/10.1117/12.2578409}
    }
  • S. Lotz, C. Grill, M. Göb, W. Draxinger, J. P. Kolb and R. Huber: Characterization of the dynamics of an FDML laser during closed-loop cavity length control. in Fiber Lasers XVIII: Technology and Systems, no. 11665, pp. 236 - 241, SPIE, 2021
    BibTeX Link
    @inproceedings{LotzLASE2021,
    author = {S. Lotz, C. Grill, M. Göb, W. Draxinger, J. P. Kolb and R. Huber},
    title = {{Characterization of the dynamics of an FDML laser during closed-loop cavity length control}},
    volume = {11665},
    booktitle = {Fiber Lasers XVIII: Technology and Systems},
    editor = {Michalis N. Zervas},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {236 -- 241},
    abstract = {In Fourier domain mode locked (FDML) lasers, extremely precise and stable matching of the filter tuning period and light circulation time in the cavity is essential for ultra-low noise operation. During the operation of FDML lasers, the ultra-low noise mode can be lost due to temperature drifts of the already temperature stabilized cavity resulting in increased intensity noise. Until now, the filter frequency is continuously regulated to match the changing light circulation time. However, this causes the filter frequency to constantly change by a few mHz and leads to synchronization issues in cases where a fixed filter frequency is desired. We present an actively cavity length controlled FDML laser and a robust and high precision feedback loop algorithm for maintaining ultra-low noise operation. Instead of adapting the filter frequency, the cavity length is adjusted by a motorized free space beam path to match the fixed filter frequency. The closed-loop system achieves a stability of ~0.18 mHz at a sweep repetition rate of ~418 kHz which corresponds to a ratio of 4×10<sup>-10</sup>. We investigate the coherence properties during the active cavity length adjustments and observe no noise increase compared to fixed cavity length. The cavity length control is fully functional and for the first time, offers the possibility to operate an FDML laser in sweet spot mode at a fixed frequency or phase locked to an external clock. This opens new possibilities for system integration of FDML lasers.},
    keywords = {AG-Huber_FDML, FDML, Fourier domain mode locking, laser beating, tunable laser, optical coherence tomography, OCT},
    year = {2021},
    URL = {hhttps://doi.org/10.1117/12.2578514}
    }
  • P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, C. Hagel, M. Bonsanto, R. Huber and R. Brinkmann: Creating a depth-resolved OCT-dataset for supervised classification based on ex vivo human brain samples. in Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV, no. 11630, pp. 66 - 73, SPIE, 2021
    BibTeX Link
    @inproceedings{Strenge2021,
    author = {P. Strenge, B. Lange, C. Grill, W. Draxinger, V. Danicke, D. Theisen-Kunde, H. Handels, C. Hagel, M. Bonsanto, R. Huber and R. Brinkmann},
    title = {{Creating a depth-resolved OCT-dataset for supervised classification based on ex vivo human brain samples}},
    volume = {11630},
    booktitle = {Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV},
    editor = {Joseph A. Izatt and James G. Fujimoto},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {66 -- 73},
    abstract = {Optical coherence tomography (OCT) has the potential to become an additional imaging modality for surgical guidance in the field of neurosurgery, especially when it comes to the detection of different infiltration grades of glioblastoma multiforme at the tumor border. Interpretation of the images, however, is still a big challenge. A method to create a labeled OCT dataset based on ex vivo brain samples is introduced. The tissue samples were embedded in an agarose mold giving them a distinctive shape before images were acquired with two OCT systems (spectral domain (SD) and swept source (SS) OCT) and histological sections were created and segmented by a neuropathologist. Based on the given shape, the corresponding OCT images for each histological image can be determined. The transfer of the labels from the histological images onto the OCT images was done with a non-affine image registration approach based on the tissue shape. It was demonstrated that finding OCT images of a tissue sample corresponding to segmented histological images without any color or laser marking is possible. It was also shown that the set labels can be transferred onto OCT images. The accuracy of method is 26 ± 11 pixel, which translates to 192 ± 75 μm for the SS-OCT and 94 ± 43 μm for the SD-OCT. The dataset consists of several hundred labeled OCT images, which can be used to train a classification algorithm.},
    keywords = {AG-Huber_OCT, optical coherence tomography, OCT, image registration, glioblastoma multiforme, MHz-OCT, brain imaging, tumor, neurosurgery},
    year = {2021},
    URL = {hhttps://doi.org/10.1117/12.2578391}
    }
  • T. Pfeiffer, T. Klein, A. Mlynek, W. Wieser, S. Lotz, C. Grill and R. Huber: High finesse tunable Fabry-Perot filters in Fourier-domain modelocked lasers. in Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV, no. 11630, SPIE, 2021
    BibTeX Link
    @inproceedings{Pfeiffer2021,
    author = {T. Pfeiffer, T. Klein, A. Mlynek, W. Wieser, S. Lotz, C. Grill and R. Huber},
    title = {{High finesse tunable Fabry-Perot filters in Fourier-domain modelocked lasers}},
    volume = {11630},
    booktitle = {Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXV},
    editor = {Joseph A. Izatt and James G. Fujimoto},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    abstract = {We demonstrate that the coherence roll-off and dynamic range of OCT systems using Fourier-domain mode-locked (FDML) lasers can be significantly improved by a fiber Fabry-Perot tunable filter (FFP-TF) with a finesse of more than 3000, a more than fivefold improvement over previous designs. In contrast to previous work, standard resampling using a pre-acquired signal (as in SD-OCT) with no k-clocking is sufficient for 20 nm and 100 nm sweep range, significantly reducing the system complexity. 3D-OCT imaging at 20 cm imaging range is demonstrated.},
    keywords = {AG-Huber_FDML, AG-Huber_OCT, optical coherence tomography, FDML laser, swept source laser, high finesse, Fabry-Perot, MHz-OCT, OCT, tunable laser},
    year = {2021},
    URL = {hhttps://doi.org/10.1117/12.2583501}
    }

2020

  • M. Schmidt, C. Grill, R. Huber and C. Jirauschek: Coherence of Fourier Domain Mode-Locked (FDML) Lasers in the Ultra-Stable Regime. in 2020 International Conference Laser Optics (ICLO), pp. 1-1, 2020
    BibTeX Link
    @INPROCEEDINGS{Schmidt2020ICLO,
      author={M. {Schmidt}, C. {Grill}, R. {Huber} and C. {Jirauschek}},
      booktitle={2020 International Conference Laser Optics (ICLO)}, 
      title={Coherence of Fourier Domain Mode-Locked (FDML) Lasers in the Ultra-Stable Regime}, 
      year={2020},
    keywords={AG-Huber_FDML},
      volume={},
      number={},
      pages={1-1},
      doi={10.1109/ICLO48556.2020.9285488},
    }
  • M. Schmidt, T. Pfeiffer, C. Grill, R. Huber and C. Jirauschek: Self-stabilization mechanism in ultra-stable Fourier domain mode-locked (FDML) lasers. OSA Continuum, no. 3, pp. 1589-1607, Optical Society of America, 2020
    BibTeX Link
    @article{schmidt2020self,
      title={Self-stabilization mechanism in ultra-stable Fourier domain mode-locked (FDML) lasers},
      author={M. {Schmidt}, T. {Pfeiffer}, C. {Grill}, R. {Huber} and C. {Jirauschek}},
      journal={OSA Continuum},
      volume={3},
      number={6},
      pages={1589--1607},
      year={2020},
    keywords={AG-Huber_FDML},
    url={https://doi.org/10.1364/OSAC.389972}, 
      publisher=  {Optical Society of America}
    }
  • C. Grill, S. Lotz, T. Blömker, D. Kastner, T. Pfeiffer, S. Karpf, M. Schmidt, W. Draxinger C. Jirauschek and R. Huber: Beating of two FDML lasers in real time. in Fiber Lasers XVII: Technology and Systems, no. 11260, pp. 132 - 138, SPIE, 2020
    BibTeX Link Datei
    @inproceedings{Grill2020,
    author = {C. {Grill}, S. {Lotz}, T. {Blömker}, D. {Kastner}, T. {Pfeiffer}, S. {Karpf}, M. {Schmidt}, W. {Draxinger}, C. 
     {Jirauschek} and R. {Huber}},
    title = {{Beating of two FDML lasers in real time}},
    volume = {11260},
    booktitle = {Fiber Lasers XVII: Technology and Systems},
    editor = {Liang Dong},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {132 -- 138},
    keywords = {AG-Huber_FDML, FDML laser, fiber lasers, beat signal, OCT, Optical Coherence Tomography, Fourier domain mode locking},
    year = {2020},
    doi = {10.1117/12.2545794},
    
    }
    
  • P. Strenge and B. Lange and C. Grill and W. Draxinger and M. M. Bonsanto and C. Hagel and R. Huber and R. Brinkmann: Segmented OCT data set for depth resolved brain tumor detection validated by histological analysis. in Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIV, no. 11228, pp. 82 - 89, SPIE, 2020
    BibTeX Link Datei
    @inproceedings{Strenge2020,
    author = {P. Strenge and B. Lange and C. Grill and W. Draxinger and M. M. Bonsanto and C. Hagel and R. Huber and R. Brinkmann},
    title = {{Segmented OCT data set for depth resolved brain tumor detection validated by histological analysis}},
    volume = {11228},
    booktitle = {Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIV},
    editor = {Joseph A. Izatt and James G. Fujimoto},
    organization = {International Society for Optics and Photonics},
    publisher = {SPIE},
    pages = {82 -- 89},
    keywords = {AG-Huber_OCT, Optical coherence tomography, OCT, FDML Laser, MHz-OCT, brain tumor, brain imaging, neurosurgery},
    year = {2020},
    
    URL = {  https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11228/112282O/Segmented-OCT-data-set-for-depth-resolved-brain-tumor-detection/10.1117/12.2545659.short}
    }
    

2019

  • Kastner, D; Blömker, T; Pfeiffer, T; Grill, C; Schmidt, M; Jirauschek, C and Huber, R: Measurement of Inter-Sweep Phase Stability of an FDML Laser with a 10 kHz Tunable Ring Laser. 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, pp. cj_7_5, Optical Society of America, 2019
    BibTeX Link Datei
    @inproceedings{Kastner:19,
    author = {Kastner, D; Bl\"{o}mker, T; Pfeiffer, T; Grill, C; Schmidt, M; Jirauschek, C and Huber, R},
    booktitle = {2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference},
    journal = {2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference},
    keywords = {Fourier domain mode locking; Image quality; Optical coherence tomography; Phase noise; Ring lasers; Tunable lasers},
    pages = {cj_7_5},
    publisher = {Optical Society of America},
    title = {Measurement of Inter-Sweep Phase Stability of an FDML Laser with a 10 kHz Tunable Ring Laser},
    year = {2019},
    keywords = {AG-Huber_FDML, AG-Huber_OCT},
    doi = { 10.1109/CLEOE-EQEC.2019.8872860},
    abstract = {Fourier Domain Mode Locking (FDML) lasers are light sources that generate a sequence of narrowband optical frequency sweeps at the fundamental or harmonic of the cavity repetition rate \[1\]. This frequency swept output can also be considered as a sequence of strongly chirped, long pulses. FDML lasers are mainly used in swept source optical coherence tomography (SS-OCT), a medical imaging technique. The coherence length of the source, i.e. the intra-sweep phase stability of an FDML sweep, is decisive for the image quality and performance of OCT imaging \[2\].},
    }
  • Schmidt, M; Pfeiffer, T; Grill, C; Huber, R and Jirauschek, C: Coexistence of Intensity Pattern Types in Broadband Fourier Domain Mode Locked (FDML) Lasers. in 2019 Conference on Lasers and Electro-Optics Europe &amp; European Quantum Electronics Conference (CLEO/Europe-EQEC), pp. 1-1, 2019
    BibTeX Link Datei
    @inproceedings{schmidt2019coexistence,
      title={Coexistence of Intensity Pattern Types in Broadband Fourier Domain Mode Locked (FDML) Lasers},
      author={Schmidt, M; Pfeiffer, T; Grill, C; Huber, R and Jirauschek, C},
      booktitle={2019 Conference on Lasers and Electro-Optics Europe \& European Quantum Electronics Conference (CLEO/Europe-EQEC)},
      pages={1--1},
      year={2019},
      organization={IEEE},
    keywords= { AG-Huber_FDML},
    url={  https://ieeexplore.ieee.org/document/8872381}
    
    }
  • Draxinger, D; Miura, Y; Grill, C; Pfeiffer, T and Huber, R: A real-time video-rate 4D MHz-OCT microscope with high definition and low latency virtual reality display. in Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 1107802, no. 11078, 2019
    BibTeX Link Poster
    @proceeding{Draxinger2019,
    author = {Draxinger, D; Miura, Y; Grill, C; Pfeiffer, T and Huber, R},
    title = {A real-time video-rate 4D MHz-OCT microscope with high definition and low latency virtual reality display},
    volume = {11078},
    year = {2019},
    url={  https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11078/2527177/A-real-time-video-rate-4D-MHz-OCT-microscope-with/10.1117/12.2527177.short}
    
    keywords = {AG-Huber_OCT},
    booktitle =    {Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 1107802},
    eprint = {}
    }
    
  • Strenge,P; Lange,B; Grill, C; Draxinger, W; Danicke, V; Theisen-Kunde, D; Bonsanto, M; Huber, R and Brinkmann R: Ex vivo and in vivo imaging of human brain tissue with different OCT systems. in Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110781C, no. 11078, 2019
    BibTeX Link Datei
    @proceeding{Strenge2019,
    author = {Strenge,P; Lange,B; Grill, C; Draxinger, W; Danicke, V; Theisen-Kunde, D; Bonsanto, M; Huber, R and Brinkmann R},
    title = {Ex vivo and in vivo imaging of human brain tissue with different OCT systems},
    volume = {11078},
    year = {2019},
    
    URL = {  https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11078/2526932/Ex-vivo-and-in-vivo-imaging-of-human-brain-tissue/10.1117/12.2526932.short},
    keywords = {AG-Huber_OCT},
    booktitle =    {Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110781C},
    eprint = {}
    }
    
  • Miura, Y; Draxinger, W; Grill, C; Pfeiffer, T; Grisanti, S and Huber, R: MHz-OCT for low latency virtual reality guided surgery: first wet lab experiments on ex-vivo porcine eye. in Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110780E, no. 11078, 2019
    BibTeX Link Datei
    @proceeding{Miura2019,
    author = { Miura, Y; Draxinger, W; Grill, C; Pfeiffer, T; Grisanti, S and Huber, R},
    title = { MHz-OCT for low latency virtual reality guided surgery: first wet lab experiments on ex-vivo porcine eye},
    volume = {11078},
    year = {2019},
    
    URL = {  https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11078/2527123/MHz-OCT-for-low-latency-virtual-reality-guided-surgery/10.1117/12.2527123.short},
    keywords = {AG-Huber_OCT},
    booktitle =    {Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110780E},
    eprint = {}
    }
    
  • Julian Klee, Jan Philip Kolb, Christin Grill, Wolfgang Draxinger ,Tom Pfeiffer, Robert Huber: Zero roll-off retinal MHz-OCT using an FDML-laser. in Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110780S, no. 11078, 2019
    BibTeX Link Datei
    @proceeding{Klee2019,
    author = {Julian Klee, Jan Philip Kolb, Christin Grill, Wolfgang Draxinger ,Tom Pfeiffer, Robert Huber},
    title = {Zero roll-off retinal MHz-OCT using an FDML-laser},
    volume = {11078},
    year = {2019},
    
    URL = {  https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11078/2527034/Zero-roll-off-retinal-MHz-OCT-using-an-FDML-laser/10.1117/12.2527034.short},
    keywords = {AG-Huber_OCT},
    booktitle =    {Proc. SPIE 11078, Optical Coherence Imaging Techniques and Imaging in Scattering Media III, 110780S},
    eprint = {}
    }
    
  • Schmidt, Mark;Pfeiffer, Tom;Grill, Christin;Huber, Robert and Jirauschek, Christian: Modeling of the Ultra-Stable Operating Regime in Fourier Domain Mode Locked (FDML) Lasers. in 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference, pp. 1-1, 2019
    BibTeX Link Poster
    @Schmidt2019,
       author = {Schmidt, Mark;Pfeiffer, Tom;Grill, Christin;Huber, Robert and Jirauschek, Christian},
       title = {Modeling of the Ultra-Stable Operating Regime in Fourier Domain Mode Locked (FDML) Lasers},
       pages = {1-1},
       DOI = {10.1109/CLEOE-EQEC.2019.8873213},
       year = {2019},
       type = {Book},
    booktitle = { 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference}
    }
    
    

2018

  • Schmidt, M. and Pfeiffer, T. and Grill, C. and Huber, R. and Jirauschek, C.: Self-Stabilization Mechanism in Fourier Domain Mode-Locked (FDML) Lasers. in EPS-QEOD Europhoton Conference Solid State, Fibre, and Waveguide Coherent Light Sources, European Physical Society EPS, 2018
    BibTeX Link
    @inproceedings{Schmidt2018,
    	author = {Schmidt, M. and  Pfeiffer, T. and  Grill, C. and  Huber, R. and  Jirauschek, C.}, 
    	title = {Self-Stabilization Mechanism in Fourier Domain Mode-Locked (FDML) Lasers},
    	booktitle = {EPS-QEOD Europhoton Conference Solid State, Fibre, and Waveguide Coherent Light Sources},
    	publisher = {European Physical Society EPS},
    	year = {2018},
    keywords = {AG-Huber_FDML},
    	language = {en},
    	url = {http://www.europhoton.org/},
    }

2017

  • Pfeiffer, T; Draxinger, W; Grill, C and Huber, R: Long-range live 3D-OCT at different spectral zoom levels. in Proc. SPIE 10416, pp. 104160L1-4, 2017
    BibTeX Link
    @inproceedings{Pfeiffer2017,
       author = {Pfeiffer, T; Draxinger, W; Grill, C and Huber, R},
       title = {Long-range live 3D-OCT at different spectral zoom levels},
       booktitle = {Proc. SPIE} {10416},
      url = {https://www.spiedigitallibrary.org/conference-proceedings-of-spie/10416/1/Long-range-live-3D-OCT-at-different-spectral-zoom-levels/10.1117/12.2287484.short?SSO=1},
       pages = {104160L1-4},
       year = {2017},
    keywords = {AG-Huber_FDML, AG-Huber_OCT},
       type = {Conference Proceedings}
    }