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- Original title:
- Widely Tunable Vertical-Cavity Surface-Emitting Lasers
- Translated title:
- Weit Abstimmbare Vertikalresonator Laserdioden
- Author:
- Gründl, Tobias
- Year:
- 2017
- Document type:
- Dissertation
- Faculty/School:
- Fakultät für Physik
- Advisor:
- Amann, Markus-Christian (Prof. Dr.)
- Referee:
- Amann, Markus-Christian (Prof. Dr.); Finley, Jonathan J. (Prof., Ph.D.); Bimberg, Dieter (Prof., Ph.D.)
- Language:
- en
- Subject group:
- PHY Physik
- Keywords:
- VCSEL, Short-Cavity, Micro-Electro-Mechanical-System, MEMS, Surface-Micro-Machining, SMM, Sub-Wavelength-Grating, SWG, High-Contrast-Grating, HCG, Tunable, Highpower, Highspeed, Wide Tunability, Singlemode, Continuous Tuning, Monolithic, Monolithically-Integrated-MEMS, MIMS, Membrane, Membrane Theory, InP, InP VCSEL, Hakki-Paoli, Cassidy
- Translated keywords:
- VCSEL, Short-Cavity, Micro-Electro-Mechanical-System, MEMS, Surface-Micro-Machining, SMM, Sub-Wavelength-Grating, SWG, High-Contrast-Grating, HCG, Tunable, Highpower, Highspeed, Wide Tunability, Singlemode, Continuous Tuning, Monolithic, Monolithically-Integrated-MEMS, MIMS, Membrane, Membrane Theory, InP, InP VCSEL, Hakki-Paoli, Cassidy
- TUM classification:
- ELT 300d
- Abstract:
- In this work, the design and the manufacturing of vertical-cavity surface-emitting lasers for various emission wavelengths is discussed. The main focus is at InP-based material systems addressing the 1.3 to 2.3 µm emission range. The new key-technologies including the short-cavity concept and the surface-micro-machining technology offer device performances of the electrically pumped VCSEL structures with world record values in highpower, highspeed and continuous wavelength tuning.
- Translated abstract:
- Das Thema dieser Arbeit ist das Design und die Herstellung von weit abstimmbaren Vertikalresonator Laserdioden für verschiedene Emissionswellenlängen. Der Fokus liegt schwerpunktmäßig auf dem InP-basierten Materialsystem welches einen Spektralbereich zwischen 1.3 und 2.3 µm bedient. Die neuartigen Schlüsseltechnologien wie das Short-Cavity Konzept und die Surface-Micro-Machining Technologie ermöglichen Weltrekordwerte in Ausgangsleistung, Modulation und kontinuierlicher Wellenlängenabstimmung.
- Series:
- Ausgewählte Probleme der Halbleiterphysik und Technologie
- Series volume:
- 207
- ISBN:
- 978-3-946379-07-2
- WWW:
- https://mediatum.ub.tum.de/?id=1292900
- Date of submission:
- 15.02.2017
- Oral examination:
- 20.04.2017
- Last change:
- 21.07.2017
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