Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser

Youwen Fan; Yvan Klaver; Valentina Moskalenko; Erwin A.J.M. Bente; Julien Javaloyes; Peter J.M. van der Slot; Klaus-J. Boller

Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser

Youwen Fan, Yvan Klaver, Valentina Moskalenko, Erwin A.J.M. Bente, Julien Javaloyes, Peter J.M. van der Slot, Klaus-J. Boller

Laser Physics & Nonlinear Optics

Research output: Contribution to conference › Poster › Other research output

Abstract

Monolithic modelocked diodes lasers have seen rapid advancements during the past decade. However, those lasers suffer from large intrinsic phase noise caused by indexgain coupling. To reduce phase noise and more freely chose the repetition rate, we consider hybrid-integration where the active is extended with a glass waveguide feedback circuit. Several advantages might be gained because glass waveguides offer extremely low loss (0.1 dB/cm) and avoid nonlinear effects. In this work, we present a theoretical study of such a passively modelocked hybrid laser. Different operational regimes of the modelocked lasers are identified, as preparation for future experiments.

Original language	English
Number of pages	1
Publication status	Published - 19 Jan 2016
Event	Physics@FOM Veldhoven 2016 - NH Koningshof Veldhoven, Veldhoven, The Netherlands, Netherlands Duration: 20 Jan 2016 → 20 Jan 2016

Conference

Conference	Physics@FOM Veldhoven 2016
Abbreviated title	FOM
Country/Territory	Netherlands
City	Veldhoven, The Netherlands
Period	20/01/16 → 20/01/16

1 Conference contribution
1 Poster

Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser
Fan, Y., Klaver, Y., Moskalenko, V., Bente, E. A. J. M., Javaloyes, J., van der Slot, P. J. M. & Boller, K.-J., 2016, p. 14-14.
Research output: Contribution to conference › Poster › Academic
Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser
Fan, Y., Klaver, Y., Moskalenko, V., Bente, E. A. J. M., Javaloyes, J., van der Slot, P. J. M. & Boller, K.-J., 8 Feb 2016, Proceedings Symposium IEEE Photonics Society Benelux, 2015, Brussels, Belgium. Kockaert, P., Emplit, P., Gorza, S.-P. & Massar, S. (eds.). Brussels: Brussels School of Engineering, p. 129-132
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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title = "Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser",

abstract = "Monolithic modelocked diodes lasers have seen rapid advancements during the past decade. However, those lasers suffer from large intrinsic phase noise caused by indexgain coupling. To reduce phase noise and more freely chose the repetition rate, we consider hybrid-integration where the active is extended with a glass waveguide feedback circuit. Several advantages might be gained because glass waveguides offer extremely low loss (0.1 dB/cm) and avoid nonlinear effects. In this work, we present a theoretical study of such a passively modelocked hybrid laser. Different operational regimes of the modelocked lasers are identified, as preparation for future experiments.",

author = "Youwen Fan and Yvan Klaver and Valentina Moskalenko and Bente, \{Erwin A.J.M.\} and Julien Javaloyes and \{van der Slot\}, \{Peter J.M.\} and Klaus-J. Boller",

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language = "English",

note = "Physics@FOM Veldhoven 2016, FOM ; Conference date: 20-01-2016 Through 20-01-2016",

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T1 - Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser

AU - Fan, Youwen

AU - Klaver, Yvan

AU - Moskalenko, Valentina

AU - Bente, Erwin A.J.M.

AU - Javaloyes, Julien

AU - van der Slot, Peter J.M.

AU - Boller, Klaus-J.

PY - 2016/1/19

Y1 - 2016/1/19

N2 - Monolithic modelocked diodes lasers have seen rapid advancements during the past decade. However, those lasers suffer from large intrinsic phase noise caused by indexgain coupling. To reduce phase noise and more freely chose the repetition rate, we consider hybrid-integration where the active is extended with a glass waveguide feedback circuit. Several advantages might be gained because glass waveguides offer extremely low loss (0.1 dB/cm) and avoid nonlinear effects. In this work, we present a theoretical study of such a passively modelocked hybrid laser. Different operational regimes of the modelocked lasers are identified, as preparation for future experiments.

AB - Monolithic modelocked diodes lasers have seen rapid advancements during the past decade. However, those lasers suffer from large intrinsic phase noise caused by indexgain coupling. To reduce phase noise and more freely chose the repetition rate, we consider hybrid-integration where the active is extended with a glass waveguide feedback circuit. Several advantages might be gained because glass waveguides offer extremely low loss (0.1 dB/cm) and avoid nonlinear effects. In this work, we present a theoretical study of such a passively modelocked hybrid laser. Different operational regimes of the modelocked lasers are identified, as preparation for future experiments.

M3 - Poster

T2 - Physics@FOM Veldhoven 2016

Y2 - 20 January 2016 through 20 January 2016

ER -

Modelling of a passively modelocked semiconductor-glass waveguide hybrid laser

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