Research-Page of Dominik G. Rabus
Publications
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Journal, Letter and Book Contributions
Conference and Poster Presentations
Invited Conference Presentations
Popular Scientific Contributions
Books & Book Chapters
[1]
Rabus, D. G. (2002):
Realization of Optical Filters using Ring Resonators with integrated
Semiconductor Optical Amplifiers in GaInAsP/InP, PhD Thesis, Der Andere Verlag, ISBN
3-89959-022-8
[2]
Rabus, D. G. (2002):
Realization of Optical Filters using Ring Resonators with integrated
Semiconductor Optical Amplifiers in GaInAsP/InP, Doktorarbeit, Berlin 
[3]
Rabus, D. G. (2007):
Integrated Ring Resonators – The Compendium, Springer Series in Optical Sciences,
Springer, Berlin Heidelberg New York, ISSN 0342-4111, ISBN 978-3-540-68786-3
[4]
Rabus, D. G. (2009):
Optofluidic Resonators, in book on Optofluidics:
Fundamentals, Devices, and Applications, McGraw-Hill, Eds. Yeshaiahu
Fainman, Luke Lee, Demetri Psaltis, Changhuei Yang
[5]
Rabus, D. G. (2009):
Optofluidic Chemical Synthesis, in book on Optofluidics:
Fundamentals, Devices, and Applications, McGraw-Hill, Eds. Yeshaiahu Fainman, Luke Lee, Demetri
Psaltis, Changhuei Yang
Journal, Letter and Book Contributions
[6]
Rabus, D. G., Hamacher, M.
(2001): Optical Filter and Laser Applications using Micro Ring Resonators,
Second Online Symposium for Electronic Engineers (OSEE), Online version
at www.techonline.com
[7]
Rabus, D. G., Hamacher, M.
(2001): MMI-Coupled Ring Resonators in GaInAsP-InP, IEEE Photon. Technol. Lett.
8, 812–814
[8]
Rabus, D. G., Hamacher,
M., Heidrich, H. (2002): Resonance Frequency Tuning of a Double Ring Resonator
on GaInAsP / InP: Experiment and Simulation, Jpn. J. Appl. Phys. (JJAP) 41,
1186–1189
[9]
Rabus, D. G., Hamacher,
M., Heidrich, H., Troppenz, U. (2002): High Q Channel Dropping Filters using
Ring Resonators with Integrated SOAs, IEEE Photon. Technol. Lett. 10, 1442–1444
[10]
Rabus, D. G., Hamacher, M.,
Troppenz, U., Heidrich, H. (2002): Optical Filters based on Ring Resonators
with Integrated Semiconductor Optical Amplifiers in GaInAsP/InP, IEEE J.
Select. Topics Quantum Electron. 6, 1405–1411
[11]
Gottesman, Y., Rao, E. V.
K., Rabus, D. G. (2004): New methodology to evaluate the performance of
ring resonators using optical low-coherence reflectometry, IEEE J. Lightwave
Technol. 6, 1566–1572
[12]
Rabus, D. G., Henzi, P.,
Mohr, J. (2005): Photonic Integrated Circuits by DUV-induced Modification of
Polymers, IEEE Photon. Technol. Lett. 3, 591–593
[14]
Ichihashi, Y., Henzi, P.,
Bruendel, M., Rabus, D. G., Mohr, J. (2006): Material Investigation of
Alicyclic Methacrylate Copolymer for Polymer Waveguide Fabrication, Jpn. J.
Appl. Phys. (JJAP) 45, 2572–2575
[15]
Ichihashi, Y., Henzi, P.,
Bruendel, M., Rabus, D. G., Mohr, J. (2006): Influence of the Exposure Spectra
on the Optical Properties of Alicyclic Methacrylate Copolymers Waveguides
fabricated by Deep UV Exposure, Jpn. J. Appl. Phys. (JJAP) 45, 6654–6657
[16]
Henzi, P., Bade, K.,
Rabus, D. G., Mohr, J. (2006): Modification of Polymethylmethacrylate by Deep
UV Radiation and Bromination for Photonic Applications, J. Vac. Sci. Technol. B
24(4), 1755–1761
[17]
The following article appeared
in
Eve, S., Huber, N., Kraft, O., Last, A.,
Rabus, D. G., Schlagenhof, M. (2006): Development and validation of an
experimental setup for the biaxial fatigue testing of metal thin films, Rev.
Sci. Instrum. 77, 103902
and may be found at http://link.aip.org/link/?rsi/77/103902
[18]
Punke, M., Mozer, S.,
Stroisch, M., Lemmer, U., Henzi, P., and Rabus, D. G. (2007): Coupling of
organic semiconductor amplified spontaneous emission into polymeric single-mode
waveguides patterned by deep-UV irradiation, IEEE Photon. Technol. Lett., 2, 61–63
[19]
Rabus, D. G., Bruendel,
M., Ichihashi, Y., Welle, A., Seger, R. A., Isaacson, M. (2007): A
Bio-Fluidic-Photonic Platform based on Deep UV Modification of Polymers, IEEE
J. Select. Topics Quantum Electron., 13, 214–222
[20]
Ichihashi, Y., Henzi, P.,
Bruendel, M., Mohr, J., Rabus, D. G. (2007): Polymer Waveguides from Alicyclic
Methacrylate Copolymer Fabricated by Deep-UV Exposure, Optics Letters, 32, 379–381 (http://www.opticsinfobase.org/abstract.cfm?URI=ol-32-4-379)
[21]
Rabus, D. G., Bian, Z.,
Shakouri, A. (2007): Ring Resonator Lasers using Passive Waveguides and
Integrated Semiconductor Optical Amplifiers, IEEE J. Select. Topics Quantum
Electron., 13, 1249–1256
[22]
Rabus, D. G., DeLouise,
L., Ichihashi, Y. (2007): Enhancement of the evanescent field using polymer waveguides
fabricated by deep UV exposure on mesoporous silicon, Optics Letters, 32, 2843–2845 (http://www.opticsinfobase.org/abstract.cfm?URI=ol-32-19-2843)
The article was selected for publication in the Virtual Journal for
Biomedical Optics, 2, 11
[23]
Gottesman, Y., Rabus, D.
G., Rao, E. V. K., Benkelfat, B.-E. (2009): An Alternative Methodology Based on
Spectral Analysis for a Direct Access to Ring Resonator Parameters, IEEE
Photon. Technol. Lett., 21, 1399–1401
[24]
Seger, R. A., Rabus, D. G., Ichihashi, Y., Bruendel, M., Isaacson, M.
(2010): Evanescent Field Excitation of Fluophores in Cultured Neural Networks
by Integrated Polymer Waveguides, IEEE J. Select. Topics Quantum Electron.,
accepted for publication
Conference and Poster Presentations
[25]
Vogel, W., Rabus, D. G., Coenning, W., Berroth, M. (1999):
Untersuchung von Flüssigkristallmodulen für die optische Nachrichtentechnik,
GMM-ITG-GI-Workshop Multi-Nature System: Optoelektronische mechatronische und
sonstige Systeme, Jena
[26]
Rabus, D. G., Hamacher,
M., Heidrich, H. (2001): Active and Passive Microring Resonator Filter
Applications on GaInAsP / InP, Proceed. Internat. Conf. on Indium Phosphide and
Related Materials (IPRM´01), Nara, Japan, 14.-18.05.2001, 477–480
[27]
Rabus, D. G., Hamacher,
M., Heidrich, H., Troppenz, U. (2002): Box-like filter response of triple ring
resonators with integrated SOA sections based on GaInAsP / InP, Proceed.
Internat. Conf. on Indium Phosphide and Related Materials (IPRM´02), Stockholm,
Sweden, 12.-16.05.2002, 479–482
[28]
Troppenz, U., Hamacher,
M., Rabus, D. G., Heidrich, H. (2002): All-active GaInAsP / InP ring cavities
for widespread functionalities in the wavelength domain, Proceed. Internat. Conf. on Indium Phosphide and Related Materials
(IPRM´02), Stockholm, Sweden, 12.-16.05.2002, 475–478
[29]
Henzi, P., Rabus, D. G.,
Wallrabe, U., Mohr, J. (2004): Low Cost Singlemode Waveguide Fabrication
Allowing Passive Fibre Coupling using LIGA and UV flood exposure, Proc. SPIE
Vol. 5454, 64–74
[30]
Henzi, P., Rabus, D. G.,
Wallrabe, U., Mohr, J. (2004): Fabrication of Photonic Integrated Circuits by DUV-induced
Modification of Polymers, Proc. SPIE 5451, 24–31
[31]
Bian,
Z., Liu, B., Shakouri, A., Rabus, D. G. (2004): Demonstration
of Semiconductor Microring Resonator Coupled Lasers, Proceed. CLEO/IQE
Conference, 16.-21. May 2004, San Francisco, USA, 652–653
[32]
Welle, A., Henzi, P.,
Rabus, D. G. (2004): Photochemical polymer surface patterning controlling cell
adhesion, European Conference on UV Radiation, Effects and Technologies,
September 22-24,
[33]
Henzi,
P., Rabus, D. G., Bade, K., Welle, A., Mohr, J. (2004): UV-induced modification
of dielectric properties of polymers for photonic applications, European Conference on UV Radiation, Effects and Technologies, September
22-24, 2004, Karlsruhe, Germany
[34]
Rabus, D. G., Henzi, P.,
Mohr, J. (2004): Photonic Integrated Circuits by DUV-induced Modification of
Polymers for Telecom and Sensor applications, Paper L-30, MOC´04, September
1-3, 2004, Jena, Germany (Paper), (Poster)
[35]
Henzi,
P., Rabus, D. G., Wallrabe, U., Mohr, J. (2004): UV-induced
Modification of Dielectric Properties of Polymers for Fabrication of Passive
Planar Ligthwave Circuits, 17th IEEE/LEOS Annual Meeting, 7-11
November 2004, Rio Grande, Puerto Rico, 792–793
[36]
Rabus,
D. G., Bian, Z., Shakouri, A. (2005): Demonstration of a Semiconductor Double
Microring Resonator Coupled Laser, Poster CB-20-MON, CLEO®/Europe 2005 and EQEC
2005, 12.-17.06.2005, Munich, Germany, 150 (Paper), (Poster)
[37]
Rabus,
D. G., Welle, A., Henzi, P., Ichihashi, Y. (2005): UV-induced modification of
dielectric properties of polymers for surface patterning controlling cell
adhesion and photonic applications, Poster P5, Biophotonik-Symposium, Jena,
Germany, 15.-17. March 2005 (Paper), (Poster)
[38]
Bruendel,
M., Henzi, P., Rabus, D. G., Worgull, M. (2005): Hot embossing of optical
waveguides, Proc. 50. Internationales Wissenschaftliches Kolloquium 2005,
Mechanical Engineering from Macro to Nano, Ilmenau, Germany, 19. – 23.
September 2005, ISBN 3-932633-98-9, 351–352
[39]
Rogge,
T., Henzi, P., Mandisloh, K., Rabus, D. G., Worgull, M. (2005): Sub-Micron
Flow-Cells, First International Nanofluidics Workshop, Boekelo, The
Netherlands, 18. - 20. April 2005, 77–78
[40]
Ichihashi, Y., Henzi, P.,
Bruendel, M., Rabus, D. G., Mohr, J. (2005): Fabrication of novel polymer
waveguides consisting of alicyclic methacrylate copolymers by deep UV exposure,
Poster H7, MOC´05, 30.10.-02.11.2005, Tokyo, Japan, 130–131
[41]
Tschulena, G., Mohr, J.,
Rabus, D. G. (2005): POLYMICRO - A Virtual European Center for the Industry,
Paper BS3-T5, COMS 2005, Baden-Baden, Germany, 21.-25. August 2005
[42]
Rabus, D. G., Henzi, P.
Bruendel, M., Hein, H., Ichihashi, Y., Rogge, T., Welle, A. (2006): Polymer
Photonic Integrated Circuits by DUV-induced Modification, Proc. SPIE 6123,
61230I
[43]
Ichihashi, Y., Henzi, P.,
Bruendel, M., Rabus, D. G., Welle, A. and Mohr, J. (2006): Novel Polymer
Waveguides Consisting of an Alicyclic Methacrylate Copolymer, Proc. SPIE 6183,
618307
[44]
Bruendel, M., Henzi, P.,
Rabus, D. G. (2006): Replication of Optical Rib Waveguide Structures using
Nickel Shims, Proc. SPIE 6185, 618508
[45]
Bian, Z., He, W. J.,
Rabus, D. G., Shakouri, A. (2006): A Wavelength-Tunable Monolithically
Integrated Double Ring Resonator Coupled Laser, CLEO, 21.-26.05.2006, Long
Beach, California, USA
[46]
Ichihashi, Y., Rabus, D.
G., Welle, A., Mohr, J. (2006): UV induced modification of polymer surface to
obtain cell friendly polymer surface and to fabricate polymer waveguides, Biophotonik-Symposium, Munich, Germany, 27. -
29. April 2006 (Paper), (Poster)
[47]
Berghmans, F., Van
Uffelen, M., Eve, S., Ernst, E., Last, A., Rabus, D. G., Huber, N., Kraft, O.,
Andrei, A., Nieradko, L., Krupa, K., Jozwik, M., Gorecki, C., Hirsinger, L.,
Delobelle, P., Kniazewski, P., Salbut, L., Kujawinska, M. (2006): Reliability
studies of microoptical components in NEMO, Proc. SPIE 6193, 61930A
[48]
Ichihashi, Y., Cristea,
D., Kusko, M., Rabus, D. G., Mappes, T., Mohr, J. (2006): Integrated Silicon
Photodiodes with Polymer (PMMA) Waveguides for Optical Interconnections and
Sensing Applications, EOS Topical Meeting on Micro-Optics, Diffractive Optics and
Optical MEMS - TOM 4, October 16th 2006 - October 19th 2006, Paris, France
[49]
Ichihashi, Y., Rabus, D.
G., Bruendel, M., Mohr, J. (2006): Fabrication and characterization of polymer
waveguides from alicyclic methacrylate copolymer, 5th International
Conference on Optics-Photonics Design & Fabrication (ODF'06), December 6-8,
Nara, Japan
[50]
Bruendel, M., Rabus, D. G.
(2006): 1 x 2 and 1 x 3 Multimode Interference Couplers Fabricated by Hot
Embossing and DUV-induced Modification of Polymers, 19th
IEEE/LEOS Annual Meeting, 29 October - 2 November 2006, Montreal, QC, Canada,
Paper TuS 5
[51]
Mappes, T., Hollenbach,
U., Ross, B., Rabus, D. G., Mohr, J. (2007): Planar Micro Optical Sensors Based
on Polymer Waveguides, MiNaT-Kongress, 12.-14.06.07, Stuttgart, Germany
[52]
Woggon, T., Punke, M.,
Stroisch, M., Gerken, M., Lemmer, U., Bruendel, M., Rabus, D. G., Weimann, T.
(2007): All-organic waveguide coupled solid-state laser as integrated light
source for lab-on-a-chip systems, nanobioeurope, June 13-15, Münster, Germany
[53]
Punke, M., Woggon, T.,
Stroisch, M., Heinrich, M. P., Karnutsch, C., Mozer, S., Lemmer, U., Bruendel,
M., Rabus, D. G., Weimann, T. (2007): All-organic waveguide coupled solid-state
distributed feedback laser, CLEO/Europe-IQEC Conference, 17-22 June 2007, Munich,
Germany
[54]
Seger, R. A., Rabus, D.
G., Ichihashi, Y., Bruendel, M., Hieb, J., Isaacson, M. S. (2007): Monitoring
Fluorescence in Cultured Neural Networks using Polymer Waveguide Excitation,
IEEE LEOS Summer Topicals 2007, 23-25 July, Portland, USA
[55]
Punke, M., Stroisch, M.,
Woggon, T., Pütz, A., Heinrich, M. P., Gerken, M., Lemmer, U., Bruendel, M.,
Rabus, D. G., Wang, J., Weimann, T. (2007): Fabrication and characterization of
organic solid-state lasers using imprint technologies, IEEE LEOS Summer
Topicals 2007, 23-25 July, Portland, USA
[56]
Gottesman, Y., Obaton,
A.-F., Rabus, D. G., Rao, E., Benkelfat, B.-E. (2007): Nouvelle methode
d’analyse des resonateurs annulaires en vue d’aplications bio-photoniques,
26èmes Journées Nationales d'Optique Guidée (JNOG 2007)
Invited Conference Presentations
[57]
Hamacher, M., Heidrich,
H., Rabus, D. G., Troppenz, U. (2002): InP-based high index waveguides on
GaInAsP / InP for applications in active/passive ring resonators, Invited Paper, Proc. SPIE 4640, 37–45
[58]
Hamacher, M., Troppenz,
U., Heidrich, H., Rabus, D. G. (2003): Active Ring Resonators Based on
InGaAsP/InP, Invited Paper, Proc.
SPIE 4947, 212–222
[59]
Liu, B., Shakouri, A.,
Rabus, D. G. (2002): Passive Microring Resonator Coupled Laser, Invited Paper, Proceed. 15th
IEEE/LEOS Annual Meeting, Glasgow, Scotland, 10.-14.11.2002, 742–743
[60]
Rabus, D. G., Heidrich,
H., Hamacher, M., Troppenz, U. (2003): Channel dropping filters based on ring
resonators and integrated SOAs, Invited
Paper, Proceed. OSA Integrated Photonics Research Conference (IPR 2003),
Washington, USA, 16.-20. June 2003, 148–150
[61]
Freude, W., Rabus, D. G., Berroth, M.
(2003): Integriert-optische Filter-Bauelemente, Invited Paper, Trends in
der Zukunftstechnologie optische Kommunikation, Forum PhotonicsBW, Stuttgart,
Germany, 11.11.2003
[62]
Punke M., Mozer S.,
Stroisch M., Bastian G., Gerken M., Lemmer U., Rabus D. G., Henzi P. (2006):
Organic devices for micro-optical applications, Invited Paper, Proc. SPIE 6185, 618505
[63]
Henzi P., Rabus D. G.,
Ichihashi Y., Bruendel M., Mohr J. (2006): Photonic Integrated Polymer
Components and Circuits by UV-Induced Refractive Index Modification, Invited Paper, Proc. SPIE 6185, 618502
[64]
Rabus, D. G., Welle, A.,
Seger, R. A., Ichihashi, Y., Bruendel, M., Hieb, J., Isaacson, M. (2006):
Determination of living cell characteristics and behavior using biophotonic
methods, Invited Paper, Proc. SPIE
6329, 63290H
[65]
Bruendel, M., Henzi, P., Rabus, D. G., Ichihashi, Y., Mohr, J.
(2006): Herstellung integrierter polymerer Wellenleiter durch UV-induzierte
Brechzahländerung, Invited Paper,
Workshop "Optik in der Rechentechnik", 27 Oktober, Siegen, Germany
[66]
Bruendel, M., Ichihashi,
Y., Mohr, J., Punke, M., Rabus, D. G., Worgull, M., Saile, V. (2007): Photonic
Integrated Circuits fabricated by Deep UV and Hot Embossing, Invited Paper, IEEE LEOS Summer
Topicals, 23-25 July, Portland, USA
Patents
[67]
Heidrich, H., Rabus, D. G., Hamacher, M., Hentschel, M., Richter,
K. (2001): Monolithisch integrierter Mikrolaser mit einem nur eine Spiegelebene
aufweisenden Zirkularresonator / Monolithic integrated microlaser with a
circular resonator comprising just one mirror plane. Germany
Patent, No DE10132479 dated 03.07.2001 and World Patent, No
WO03005499 dated 03.07.2002
[68]
Heidrich, H., Hamacher,
M., Rabus, D. G., Troppenz, U. (2001): Verfahren zur kraftschlüssigen
Ganzwaferverbindung mit Flip-Wafer-Bonding / Frictional coupling of transfer
wafer to semiconductor layer structure for manufacture of ultra-compact optical
components, by applying metal eutectic and heating to activate solder
connection. Germany Patent, No DE10153054 dated 21.10.2001
[69]
Rabus, D. G. (2002): Verfahren zur Parameterbestimmung eines
optischen Filters und nach dem Verfahren hergestellte optische Filter /
Determining optical filter parameters involves defining ring resonator model
segments, determining wavelength-dependent electrical energy, coupling factors,
optimizing transmission function. Germany Patent, No DE10219244 dated 24.04.2002
[70]
Henzi, P., Rabus, D. G., Welle, A. (2004): Bestimmung
intrazellulärer Parameter an immobilisierten Zellen auf Wellenleiteroberflächen
/ Apparatus for in-vivo characterization of cells and use of said apparatus. Germany Patent, No DE102004024977.6 dated 21.05.2004 and European Patent No
1598659 A1 dated 10.05.2005
[71]
Rabus, D. G., Winkler, M.,
Oberndorfer, C. (2008): Microspectrometer. Germany Patent, No DE202008003977 dated 20.03.2008 and World Patent, No
WO2009106313 dated 03.09.2009
[72]
Rabus, D. G., Winkler, M. (2008): Verfahren zur Uebermittlung von
Informationen. Germany Patent, No DE102008031798 dated 04.07.2008
Popular Scientific Contributions
[73]
Optische Wellenleiter finden Anwendung in Telekommunikation und
Sensorik, Marktplatz r2b, Forschungszentrum Karlsruhe, Ausgabe 3, 2005
[74]
Planare optische Wellenleiter in PMMA, Photonik 5, 2005