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1. Long-term absolute frequency stabilization of a hybrid-integrated InP-Si3N4 diode laser

Author

van Rees, Albert, Winkler, Lisa V., Brochard, Pierre, Geskus, Dimitri, van der Slot, Peter J. M., Nölleke, Christian, and Boller, Klaus-J.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Hybrid integrated diode lasers based on combining semiconductor optical amplifiers with low-loss Si3N4-based feedback circuits enable great laser performance for advanced photonic circuits. In particular, using high-Q Si3N4 ring resonators for frequency-selective feedback provides wide spectral coverage, mode-hop free tuning, and high frequency stability on short timescales, showing as ultra-narrow intrinsic linewidths. However, many applications also require long-term stability, which can be provided by locking the laser frequency to a suitable reference. We present the stabilization of a hybrid-integrated laser, which is widely tunable around the central wavelength of 1550 nm, to a fiber-based optical frequency discriminator (OFD) and to an acetylene absorption line. By locking the laser to the OFD, the laser's fractional frequency stability is improved down to 2.1$\cdot$10$^{-12}$ over an averaging time of 0.5 ms. For absolute stability over longer times of several days, we successfully lock the laser frequency to an acetylene absorption line. This limits the frequency deviations of the laser to a range of less than 12 MHz over 5 days., Comment: 12 pages, 6 figures

Published
2023
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3. Sub-kHz-linewidth external-cavity laser (ECL) with Si$_{3}$N$_{4}$ resonator used as a tunable pump for a Kerr frequency comb

Author

Maier, Pascal, Chen, Yung, Xu, Yilin, Bao, Yiyang, Blaicher, Matthias, Geskus, Dimitri, Dekker, Ronald, Liu, Junqiu, Dietrich, Philipp-Immanuel, Peng, Huanfa, Randel, Sebastian, Freude, Wolfgang, Kippenberg, Tobias J., and Koos, Christian

Subjects
Physics - Optics
Abstract

Combining optical gain in direct-bandgap III-V materials with tunable optical feedback offered by advanced photonic integrated circuits is key to chip-scale external-cavity lasers (ECL), offering wideband tunability along with low optical linewidths. External feedback circuits can be efficiently implemented using low-loss silicon nitride (Si$_{3}$N$_{4}$) waveguides, which do not suffer from two-photon absorption and can thus handle much higher power levels than conventional silicon photonics. However, co-integrating III-V-based gain elements with tunable external feedback circuits in chip-scale modules still represents a challenge, requiring either technologically demanding heterogeneous integration techniques or costly high-precision multi-chip assembly. In this work, we demonstrate Si$_{3}$N$_{4}$-based hybrid integrated ECL that exploit 3D-printed structures such as intra-cavity photonic wire bonds and facet-attached microlenses for low-loss optical coupling with relaxed alignment tolerances, thereby overcoming the need for active alignment while maintaining the full flexibility of multi-chip integration techniques. In a proof-of-concept experiment, we demonstrate an ECL offering a 90 nm tuning range (1480 nm - 1570 nm) with on-chip output powers above 12 dBm and side-mode suppression ratios of up to 59 dB. We achieve an intrinsic linewidth of 979 Hz, which is among the lowest values reported for comparable feedback architectures. The optical loss of the intra-cavity photonic wire bond between the III-V gain element and the Si$_{3}$N$_{4}$-based tunable feedback circuit amounts to approximately (1.6 $\pm$ 0.2) dB. We use the ECL as a tunable pump laser to generate a dissipative Kerr soliton frequency comb. To the best of our knowledge, our experiments represent the first demonstration of a single-soliton Kerr comb generated with a pump that is derived from a hybrid ECL.

Published
2022
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4. A hybrid-integrated diode laser in the visible spectral range

Author

Franken, Cornelis A. A., van Rees, Albert, Winkler, Lisa V., Fan, Youwen, Geskus, Dimitri, Dekker, Ronald, Geuzebroek, Douwe H., Fallnich, Carsten, van der Slot, Peter J. M., and Boller, Klaus-J.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Generating visible light with wide tunability and high coherence based on photonic integrated circuits is of high interest for applications in biophotonics, precision metrology and quantum technology. Here we present the first demonstration of a hybrid-integrated diode laser in the visible spectral range. Using an AlGaInP optical amplifier coupled to a low-loss Si3N4 feedback circuit based on microring resonators, we obtain a spectral coverage of 10.8 nm around 684.4 nm wavelength with up to 4.8 mW output power. The measured intrinsic linewidth is 2.3$\pm$0.2 kHz., Comment: 8 pages, 6 figures

Published
2020
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5. High-purity microwave generation using a dual-frequency hybrid integrated semiconductor-dielectric waveguide laser

Author

Mak, Jesse, van Rees, Albert, Lammerink, Rob E. M., Geskus, Dimitri, Fan, Youwen, van der Slot, Peter J. M., Roeloffzen, Chris G. H., and Boller, Klaus-J.

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

We present an integrated semiconductor-dielectric hybrid dual-frequency laser operating in the 1.5 $\mu$m wavelength range for microwave and terahertz (THz) generation. Generating a microwave beat frequency near 11 GHz, we observe a record-narrow intrinsic linewidth as low as about 2 kHz. This is realized by hybrid integration of a single diode amplifier based on indium phosphide (InP) with a long, low-loss silicon nitride (Si$_3$N$_4$) feedback circuit to extend the cavity photon lifetime, resulting in a cavity optical roundtrip length of about 30 cm on a chip. Simultaneous lasing at two frequencies is enabled by introducing an external control parameter for balancing the feedback from two tunable, frequency-selective Vernier mirrors on the Si$_3$N$_4$ chip. Each frequency can be tuned with a wavelength coverage of about 80 nm, potentially allowing for the generation of a broad range of frequencies in the microwave range up to the THz range.

Published
2020
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6. Ring resonator enhanced mode-hop-free wavelength tuning of an integrated extended-cavity laser

Author

van Rees, Albert, Fan, Youwen, Geskus, Dimitri, Klein, Edwin J., Oldenbeuving, Ruud M., van der Slot, Peter J. M., and Boller, Klaus-J.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Extending the cavity length of diode lasers with feedback from Bragg structures and ring resonators is highly effective for obtaining ultra-narrow laser linewidths. However, cavity length extension also decreases the free-spectral range of the cavity. This reduces the wavelength range of continuous laser tuning that can be achieved with a given phase shift of an intracavity phase tuning element. We present a method that increases the range of continuous tuning to that of a short equivalent laser cavity, while maintaining the ultra-narrow linewidth of a long cavity. Using a single-frequency hybrid integrated InP-Si3N4 diode laser with 120 nm coverage around 1540 nm, with a maximum output of 24 mW and lowest intrinsic linewidth of 2.2 kHz, we demonstrate a six-fold increased continuous and mode-hop-free tuning range of 0.22 nm (28 GHz) as compared to the free-spectral range of the laser cavity., Comment: 12 pages, 7 figures

Published
2019
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7. Hybrid integrated semiconductor lasers with silicon nitride feedback circuits

Author

Boller, Klaus-J., van Rees, Albert, Fan, Youwen, Mak, Jesse, Lammerink, Rob E. M., Franken, Cornelis A. A., van der Slot, Peter J. M., Marpaung, David A. I., Fallnich, Carsten, Epping, Jörn P., Oldenbeuving, Ruud M., Geskus, Dimitri, Dekker, Ronald, Visscher, Ilka, Grootjans, Robert, Roeloffzen, Chris G. H., Hoekman, Marcel, Klein, Edwin J., Leinse, Arne, and Heideman, René G.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Hybrid integrated semiconductor laser sources offering extremely narrow spectral linewidth as well as compatibility for embedding into integrated photonic circuits are of high importance for a wide range of applications. We present an overview on our recently developed hybrid-integrated diode lasers with feedback from low-loss silicon nitride (Si3N4 in SiO2) circuits, to provide sub-100-Hz-level intrinsic linewidths, up to 120 nm spectral coverage around 1.55 um wavelength, and an output power above 100 mW. We show dual-wavelength operation, dual-gain operation, laser frequency comb generation, and present work towards realizing a visible-light hybrid integrated diode laser., Comment: 25 pages, 16 figures

Published
2019
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8. Ultra-narrow linewidth hybrid integrated semiconductor laser

Author

Fan, Youwen, van Rees, Albert, van der Slot, Peter J. M., Mak, Jesse, Oldenbeuving, Ruud, Hoekman, Marcel, Geskus, Dimitri, Roeloffzen, Chris G. H., and Boller, Klaus-J.

Subjects
Physics - Optics
Abstract

We demonstrate a hybrid integrated and widely tunable diode laser with an intrinsic linewidth as narrow as 40 Hz, achieved with a single roundtrip through a low-loss feedback circuit that extends the cavity length to 0.5 meter on a chip. Employing solely dielectrics for single-roundtrip, single-mode resolved feedback filtering enables linewidth narrowing with increasing laser power, without limitations through nonlinear loss. We achieve single-frequency oscillation with up to 23 mW fiber coupled output power, 70-nm wide spectral coverage in the 1.55 $\mu$m wavelength range with 3 mW output, and obtain more than 60 dB side mode suppression. Such properties and options for further linewidth narrowing render the approach of high interest for direct integration in photonic circuits serving microwave photonics, coherent communications, sensing and metrology with highest resolution., Comment: 13 pages, and 11 figures

Published
2019
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9. Integrated frequency comb laser with narrow intrinsic optical linewidth based on a dielectric waveguide feedback circuit

Author

Mak, Jesse, van Rees, Albert, Fan, Youwen, Klein, Edwin J., Geskus, Dimitri, van der Slot, Peter J. M., and Boller, Klaus. -J.

Subjects
Physics - Optics
Abstract

We present an integrated hybrid semiconductor-dielectric (InP-Si$_3$N$_4$) waveguide laser that generates frequency combs at a wavelength around 1.5 $\mu$m with a record-low intrinsic optical linewidth of 34 kHz. This is achieved by extending the cavity photon lifetime using a low-loss dielectric waveguide circuit. In our experimental demonstration, the on-chip, effective optical path length of the laser cavity is extended to 6 cm. The resulting linewidth narrowing shows the high potential of on-chip, highly coherent frequency combs with direct electrical pumping, based on hybrid and heterogeneous integrated circuits making use of low-loss dielectric waveguides.

Published
2019
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10. 8x8 Reconfigurable quantum photonic processor based on silicon nitride waveguides

Author

Taballione, Caterina, Wolterink, Tom A. W., Lugani, Jasleen, Eckstein, Andreas, Bell, Bryn A., Grootjans, Robert, Visscher, Ilka, Geskus, Dimitri, Roeloffzen, Chris G. H., Renema, Jelmer J., Walmsley, Ian A., Pinkse, Pepijn W. H., and Boller, Klaus-Jochen

Subjects
Quantum Physics, Physics - Optics
Abstract

The development of large-scale optical quantum information processing circuits ground on the stability and reconfigurability enabled by integrated photonics. We demonstrate a reconfigurable 8x8 integrated linear optical network based on silicon nitride waveguides for quantum information processing. Our processor implements a novel optical architecture enabling any arbitrary linear transformation and constitutes the largest programmable circuit reported so far on this platform. We validate a variety of photonic quantum information processing primitives, in the form of Hong-Ou-Mandel interference, bosonic coalescence/anticoalescence and high-dimensional single-photon quantum gates. We achieve fidelities that clearly demonstrate the promising future for large-scale photonic quantum information processing using low-loss silicon nitride., Comment: Added supplementary materials, extended introduction, new figures, results unchanged

Published
2018
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15. Sub-kHz-linewidth external-cavity laser (ECL) with Si3N4 resonator used as a tunable pump for a Kerr frequency comb

Author

Maier, Pascal, primary, Chen, Yung, additional, Xu, Yilin, additional, Bao, Yiyang, additional, Blaicher, Matthias, additional, Geskus, Dimitri, additional, Dekker, Ronald, additional, Liu, Junqiu, additional, Dietrich, Philipp-Immanuel, additional, Peng, Huanfa, additional, Randel, Sebastian, additional, Freude, Wolfgang, additional, Kippenberg, Tobias J., additional, and Koos, Christian, additional

Published
2023
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16. True Time Delay Optical Beamforming Network Based on Hybrid Inp-Silicon Nitride Integration

Author

Tsokos, Christos, primary, Andrianopoulos, Efstathios, additional, Raptakis, Adam, additional, Lyras, Nikolaos, additional, Gounaridis, Lefteris, additional, Groumas, Panos, additional, Timens, Roelof Bernardus, additional, Visscher, Ilka, additional, Grootjans, Robert, additional, Wefers, Lennart S., additional, Geskus, Dimitri, additional, Klein, Edwin, additional, Avramopoulos, Hercules, additional, Heideman, Rene, additional, Kouloumentas, Christos, additional, and Roeloffzen, Chris, additional

Published
2021
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21. Sub-kHz-Linewidth External-Cavity Laser (ECL) With Si3N4 Resonator Used as a Tunable Pump for a Kerr Frequency Comb

Author

Maier, Pascal, Chen, Yung, Xu, Yilin, Bao, Yiyang, Blaicher, Matthias, Geskus, Dimitri, Dekker, Ronald, Liu, Junqiu, Dietrich, Philipp-Immanuel, Peng, Huanfa, Randel, Sebastian, Freude, Wolfgang, Kippenberg, Tobias J., and Koos, Christian

Abstract

Combining optical gain in direct-bandgap III-V materials with tunable optical feedback offered by advanced photonic integrated circuits is key to chip-scale external-cavity lasers (ECL), offering wideband tunability along with low optical linewidths. External feedback circuits can be efficiently implemented using low-loss silicon nitride (Si3N4) waveguides, which do not suffer from two-photon absorption and can thus handle much higher power levels than conventional silicon photonics. However, co-integrating III-V-based gain elements with tunable external feedback circuits in chip-scale modules still represents a challenge, requiring either technologically demanding heterogeneous integration techniques or costly high-precision multi-chip assembly, often based on active alignment. In this work, we demonstrate Si3N4-based hybrid integrated ECL that exploit 3D-printed structures such as intra-cavity photonic wire bonds and facet-attached microlenses for low-loss optical coupling with relaxed alignment tolerances, thereby overcoming the need for active alignment while maintaining the full flexibility of multi-chip integration techniques. In a proof-of-concept experiment, we demonstrate an ECL offering a 90 nm tuning range (1480 nm–1570 nm) with on-chip output powers above 12 dBm and side-mode suppression ratios of up to 59 dB in the center of the tuning range. We achieve an intrinsic linewidth of 979 Hz, which is among the lowest values reported for comparable feedback architectures. The optical loss of the intra-cavity photonic wire bond between the III-V gain element and the Si3N4-based tunable feedback circuit amounts to approximately (1.6 ± 0.2) dB. We use the ECL as a tunable pump laser to generate a dissipative Kerr soliton frequency comb. To the best of our knowledge, our experiments represent the first demonstration of a single-soliton Kerr comb generated with a pump that is derived from a hybrid ECL.

Published
2023
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22. Reliable low-cost fabrication of low-loss [Al.sub.2][O.sub.3]:[Er.sup.3+] waveguides with 5.4-dB optical gain

Author

Worhoff, Kerstin, Bradley, Jonathan D.B., Ay, Feridun, Geskus, Dimitri, Blauwendraat, Tom P., and Pollnau, Markus

Subjects
Aluminum oxide -- Electric properties, Aluminum oxide -- Optical properties, Erbium -- Electric properties, Erbium -- Optical properties, Optical waveguides -- Composition, Optical waveguides -- Electric properties, Business, Computers, Electronics, Electronics and electrical industries
Abstract

[Al.sub.2][O.sub.3] and [Al.sub.2][O.sub.3]:[Er.sup.3+] waveguides are prepared by a reliable, low-cost and reproducible reactive cosputtering process and their optical and spectroscopic properties are examined. The gain measurements over 6.4-cm propagation length in a 700-nm-thick [Al.sub.2][O.sub.3]:[Er.sup.3+] channel waveguide has resulted in net optical gain over a 41-nm wide wavelength range with a maximum of 5.4 dB at 1533 nm.

Published
2009

24. Narrow-linewidth hybrid-integrated semiconductor lasers by exploiting feedback from Si3N4 circuits

Author

van Rees, Albert, primary, Fan, Youwen, additional, Mak, Jesse, additional, Lammerink, Rob E. M., additional, Franken, Cornelis A. A., additional, Oldenbeuving, Ruud M., additional, Geskus, Dimitri, additional, Epping, Jörn P., additional, Hoekman, Marcel, additional, Dekker, Ronald, additional, Klein, Edwin J., additional, Geuzebroek, Douwe H., additional, Roeloffzen, Chris G. H., additional, Fallnich, Carsten, additional, van der Slot, Peter J. M., additional, and Boller, Klaus-Jochen, additional

Published
2021
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25. Hybrid integrated silicon nitride lasers

Author

Epping, Jörn P., Leinse, Arne, Oldenbeuving, Ruud M., Visscher, Ilka, Geuzebroek, Douwe, Geskus, Dimitri, Rees, Albert van, Boller, Klaus J., Theurer, Michael, Möhrle, Martin, Schell, Martin, Roeloffzen, Chris G. H., Heideman, René G., Witzigmann, Bernd, Osiński, Marek, Arakawa, Yasuhiko, and Laser Physics & Nonlinear Optics

Subjects
Materials science, Hybrid integration, 02 engineering and technology, 01 natural sciences, law.invention, TriPleX™, 010309 optics, chemistry.chemical_compound, Resonator, Laser linewidth, law, Ultra-narrow linewidth tunable hybrid integrated lasers indium phosphide InP TriPleX™ ultra-low loss long cavity with a wavelength-selective tunable filter C-band, Vernier filters, 0103 physical sciences, Indium Phosphide, business.industry, Vernier scale, Photonic integrated circuit, 021001 nanoscience & nanotechnology, Laser, external cavity laser, Photonic Integrated Circuits, chemistry, Silicon nitride, Filter (video), Indium phosphide, Optoelectronics, 0210 nano-technology, business
Abstract

Ultra-narrow linewidth tunable hybrid integrated lasers are built from a combination of indium phosphide (InP) and silicon nitride-based TriPleX™. By combining the active functionality of InP with the ultra-low loss properties of the TriPleX™ platform narrow linewidth lasers in the C-band are realized. The InP platform is used for light generation and the TriPleX™ platform is used to define a long cavity with a wavelength-selective tunable filter. The TriPleX™ platform has the ability to adapt mode profiles over the chip and is extremely suitable for mode matching to the other platforms for hybrid integration. The tunable filter is based on a Vernier of micro-ring resonators to allow for single-mode operation, tunable by thermo-optic or stress-induced tuning. This work will show the operational principle and benefits of the hybrid lasers and the state of the art developments in the realization of these lasers. High optical powers ( >100 mW) are combined with narrow linewidth (< 1 kHz) spectral responses with tunability over a large (>100 nm) wavelength range and a low relative intensity (< -160 dB/Hz).Ultra-narrow linewidth tunable hybrid integrated lasers are built from a combination of indium phosphide (InP) and silicon nitride-based TriPleX™. By combining the active functionality of InP with the ultra-low loss properties of the TriPleX™ platform narrow linewidth lasers in the C-band are realized. The InP platform is used for light generation and the TriPleX™ platform is used to define a long cavity with a wavelength-selective tunable filter. The TriPleX™ platform has the ability to adapt mode profiles over the chip and is extremely suitable for mode matching to the other platforms for hybrid integration. The tunable filter is based on a Vernier of micro-ring resonators to allow for single-mode operation, tunable by thermo-optic or stress-induced tuning. This work will show the operational principle and benefits of the hybrid lasers and the state of the art developments in the realization of these lasers. High optical powers ( >100 mW) are combined with narrow linewidth (< 1 kHz) spectral responses with tunability over a large (>100 nm) wavelength range and a low relative intensity (< -160 dB/Hz).

Published
2020

26. First realization of a hybrid integrated diode laser in the visible spectral range

Author

Franken, Kees, van Rees, Albert, Fan, Youwen, Geskus, Dimitri, Dekker, Ronald, Geuzebroek, Douwe, Fallnich, Carsten, van der Slot, Peter, Boller, Klaus, and Laser Physics & Nonlinear Optics

Subjects
Physics::Optics, Physics::Atomic Physics
Abstract

Visible diode lasers with wide wavelength tunability and narrow spectral linewidth are of high importance in bio-photonics and metrology. Hybrid integrated diode lasers, using waveguide circuits for spectrally selective feedback, provide wide tunability and sub-100-Hz intrinsic linewidths in a robust chip format. So far, these lasers have only been realized at infrared wavelengths. Here we present the first operation of a hybrid integrated diode laser in the visible. The laser, formed by a diode amplifier which is hybrid integrated with a Si3N4 ring-resonator based feedback circuit, is tunable over 11 nm around 685 nm and delivers 5 mW output power.

Published
2020

29. Spectroscopy, Cooperative Upconversion and Optical Gain in Amorphous Al2O3:Yb3+ Waveguides on Silicon

Author

Loiko, Pavel, Agazzi, L., Kores, Cristine C., DIjkstra, M., Geskus, Dimitri, Pollnau, Markus, Loiko, Pavel, Agazzi, L., Kores, Cristine C., DIjkstra, M., Geskus, Dimitri, and Pollnau, Markus

Abstract

Ridge waveguides in amorphous Al2O3:Yb3+ are produced by reactive co-sputtering and reactive-ion etching. Their spectroscopic properties, optical gain, and cooperative upconversion are studied and explained based on a model of distinct ion classes., Not duplicate with DiVA 1538950QC 20211003

Published
2020

31. Flip-Chip Integration of InP to SiN Photonic Integrated Circuits

Author

Theurer, Michael, primary, Moehrle, Martin, additional, Sigmund, Ariane, additional, Velthaus, Karl-Otto, additional, Oldenbeuving, Ruud M., additional, Wevers, Lennart, additional, Postma, Ferry M., additional, Mateman, Richard, additional, Schreuder, Frederik, additional, Geskus, Dimitri, additional, Worhoff, Kerstin, additional, Dekker, Ronald, additional, Heideman, Rene G., additional, and Schell, Martin, additional

Published
2020
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36. Hybrid Integrated Semiconductor Lasers with Silicon Nitride Feedback Circuits

Author

Boller, Klaus-J., primary, van Rees, Albert, additional, Fan, Youwen, additional, Mak, Jesse, additional, Lammerink, Rob, additional, Franken, Cornelis, additional, van der Slot, Peter, additional, Marpaung, David, additional, Fallnich, Carsten, additional, Epping, Jörn, additional, Oldenbeuving, Ruud, additional, Geskus, Dimitri, additional, Dekker, Ronald, additional, Visscher, Ilka, additional, Grootjans, Robert, additional, Roeloffzen, Chris, additional, Hoekman, Marcel, additional, Klein, Edwin, additional, Leinse, Arne, additional, and Heideman, René, additional

Published
2019
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38. Broadband Continuously Tuneable Delay Microwave Photonic Beamformer for Phased Array Antennas

Author

Grootjans, Robert, primary, Dekker, Ronald, additional, Oldenbeuving, Ruud, additional, Epping, Jorn, additional, Timens, Roelof Bernardus, additional, Heuvink, Rick, additional, Klein, Edwin, additional, Leinse, Arne, additional, van Dijk, Paul, additional, Heideman, Rene, additional, Roeloffzen, Chris, additional, Taddei, Caterina, additional, Hoekman, Marcel, additional, Wevers, Lennart, additional, Visscher, Ilka, additional, Kapteijn, Paul, additional, Geskus, Dimitri, additional, and Alippi, Andrea, additional

Published
2019
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39. 8×8 reconfigurable quantum photonic processor based on silicon nitride waveguides

Author

Taballione, Caterina, primary, Wolterink, Tom A. W., additional, Lugani, Jasleen, additional, Eckstein, Andreas, additional, Bell, Bryn A., additional, Grootjans, Robert, additional, Visscher, Ilka, additional, Geskus, Dimitri, additional, Roeloffzen, Chris G. H., additional, Renema, Jelmer J., additional, Walmsley, Ian A., additional, Pinkse, Pepijn W. H., additional, and Boller, Klaus-J., additional

Published
2019
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40. 8×8 Programmable Si3N4 Photonic Processor for Linear Quantum Processing

Author

Taballione, Caterina, primary, Renema, Jelmer J., additional, Walmsley, Ian A., additional, Pinkse, Pepijn W. H., additional, Boller, Klaus-J., additional, Wolterink, Tom A. W., additional, Lugani, Jasleen, additional, Eckstein, Andreas, additional, Bell, Bryn A., additional, Grootjans, Robert, additional, Visscher, Ilka, additional, Geskus, Dimitri, additional, and Roeloffzen, Chris G. H., additional

Published
2019
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46. Si3N4 Reconfigurable Linear Optical Network for Quantum Information Processing

Author

Taballione, Caterina, primary, Wolterink, Tom A. W., additional, Lugani, Jasleen, additional, Eckstein, Andreas, additional, Bell, Bryn A., additional, Grootjans, Robert, additional, Visscher, Ilka, additional, Geskus, Dimitri, additional, Roeloffzen, Chris G. H., additional, Renema, Jelmer J., additional, Walmsley, Ian A., additional, Pinkse, Pepijn W. H., additional, and Boller, Klaus-J., additional

Published
2019
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47. Temperature dependence of the spectral characteristics of distributed-feedback resonators

Author

Calil Kores, Cristine, Ismail, Nur, Geskus, Dimitri, Dijkstra, Meindert, Bernhardi, Edward, Pollnau, Markus, Calil Kores, Cristine, Ismail, Nur, Geskus, Dimitri, Dijkstra, Meindert, Bernhardi, Edward, and Pollnau, Markus

Abstract

We characterize the spectral response of a distributed-feedback resonator when subject to a thermal chirp. An Al2O3 rib waveguide with a corrugated surface Bragg grating inscribed into its SiO2 top cladding is experimentally investigated. We induce a near-to-linear temperature gradient along the resonator, leading to a similar variation of the grating period, and characterize its spectral response in terms of wavelength and linewidth of the resonance peak. Simulations are carried out, showing good agreement with the experimental results and indicating that the wavelength of the resonance peak is a result only of the total accumulated phase shift. For any chirp profile we are able to calculate the reflectivities at the resonance wavelength, and this information largely explains how the linewidth of the resonance changes. This result shows that the increase in linewidth is governed by the increase of the resonator outcoupling losses., QC 20180326

Published
2018
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48. Spectral broadening in distributed-feedback resonators due to thermal chirp

Author

Kores, Cristine Calil, Ismail, Nur, Geskus, Dimitri, Dijkstra, M., Bernhardi, Edward H., Pollnau, Markus, Kores, Cristine Calil, Ismail, Nur, Geskus, Dimitri, Dijkstra, M., Bernhardi, Edward H., and Pollnau, Markus

Abstract

We investigate the spectral response of an unpumped distributed-feedback waveguide resonator, subject to thermal chirp. Experimental and simulated results indicate that such chirp causes an increase in outcoupling losses and, therefore, in the resonance linewidth., QC 20181108

Published
2018
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49. Temperature dependence of the resonance line of optically pumped distributed-feedback lasers

Author

Calil Kores, Cristine, Ismail, Nur, Geskus, Dimitri, Dijkstra, M., Bernhardi, Edward H., Pollnau, Markus, Calil Kores, Cristine, Ismail, Nur, Geskus, Dimitri, Dijkstra, M., Bernhardi, Edward H., and Pollnau, Markus

Abstract

We characterize experimentally and theoretically a distributed-feedback laser resonator subject to a thermal chirp. The total accumulated phase shift determines the resonance wavelength. The reflectivities (outcoupling losses) at the resonance wavelength govern the resonance linewidth., QC 20190403

Published
2018
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