Your search keyword '"Petter Holmström"' showing total 5 results

1. Low-power nanophotonics: material and device technology

Author

Lech Wosinski, Sebastian Lourdudoss, Lars Thylén, and Petter Holmström

Subjects

Silicon photonics, Materials science, Quantum dot, business.industry, Nanophotonics, Physics::Optics, Optoelectronics, Electronics, Photonics, business, Phase modulation, Optical switch, Plasmon

Abstract

Development in photonics for communications and interconnects pose increasing requirements on reduction of footprint, power dissipation and cost, as well as increased bandwidth. Nanophotonics integrated photonics has been viewed as a solution to this, capitalizing on development in nanotechnology and an increased understanding of light matter interaction on the nanoscale. The latter can be exemplified by plasmonics and low dimensional semiconductors such as quantum dots (QDs). In this scenario the development of improved electrooptic materials is of great importance, the electrooptic polymers being an example, since they potentially offer superior properties for optical phase modulators in terms of power and integratability. Phase modulators are essential for e.g. the rapidly developing advanced modulation formats, since phase modulation basically can generate any type of modulation. The electrooptic polymers, in combination with plasmonics nanoparticle array waveguides or nanostructured hybrid plasmonic media can give extremely compact and low power dissipation modulators. Low-dimensional semiconductors, e.g. in the shape of QDs, can be employed for modulation or switching functions, offering possibilities for scaling to 2 or 3 dimensions for advanced switching functions. In both the high field confinement plasmonics and QDs, the nanosizing is due to nearfield interactions, albeit being of different physical origin in the two cases. Epitaxial integration of III-V structures on Si plays an important role in developing high-performance light sources on silicon, eventually integrated with silicon electronics. A brief remark on all-optical vs. electronically controlled optical switching systems is also given.

Published

2013

2. Very-low-power and footprint integrated photonic modulators and switches for ICT

Author

Lech Wosinski, Petter Holmström, and Lars Thylén

Subjects

Silicon photonics, Materials science, business.industry, Quantum dot, Bandwidth (signal processing), Nanophotonics, Physics::Optics, Optoelectronics, Photonics, business, Phase modulation, Optical switch, Plasmon

Abstract

The current development in photonics for communications and interconnects pose increasing requirements on reduction of footprint, power dissipation and cost, as well as increased bandwidth. Integrated nanophotonics has been viewed as one solution to this, capitalizing on development in nanotechnology as such as well as on increased insights into light matter interaction on the nanoscale. The latter can be exemplified by plasmonics and low-dimensional semiconductors such as quantum dots (QDs). In this scenario the development of better electrooptic materials is also of great importance, the electrooptic polymers being an example, since they potentially offer improved properties for optical phase modulators in terms of power and probably cost and general flexibility. Phase modulators are essential for e.g. the rapidly developing advanced modulation formats for telecom, since phase modulation basically can generate any type of modulation. The electrooptic polymers, e.g. in combination with plasmonics nanoparticle array waveguides or nanostructured hybrid plasmonic media can theoretically give extremely compact and low power dissipation modulators, still to be demonstrated. The low-dimensional semiconductors, e.g. in the shape of QDs, can be employed for modulation or switching functions, offering possibilities in the future for scaling to 2 or 3 dimensions for advanced switching functions. In both the plasmonics and QD cases, nanosizing and low power dissipation are generally due to near-field interactions, albeit being of different physical origin in the two cases. A comparison of all-optical and electronically controlled switching is given.

Published

2013

3. Passive and active plasmonic nanoarray devices

Author

Lars Thylén, Min Qiu, Alexander M. Bratkovsky, Jun Yuan, and Petter Holmström

Subjects

Materials science, Silicon, business.industry, Photonic integrated circuit, Nanophotonics, Physics::Optics, chemistry.chemical_element, Nanoparticle, Optical field, Surface plasmon polariton, chemistry, Power dividers and directional couplers, Optoelectronics, business, Nonlinear Sciences::Pattern Formation and Solitons, Plasmon

Abstract

Metal nanoparticle arrays offer the possibility to considerably surpass the optical field confinement of silicon waveguides. The properties of directional couplers composed of such plasmonic nanoar ...

Published

2011

4. Intersubband photonic devices by group-III nitrides

Author

Katsumi Kishino, Lars Thylen, T. Aggerstam, Petter Holmström, Hiroyuki Uchida, Thorvald Andersson, Akihiko Kikuchi, Sebastian Lourdudoss, and X. Y. Liu

Subjects

Materials science, Condensed Matter::Other, business.industry, Phonon, Terahertz radiation, Physics::Optics, Gallium nitride, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Optical switch, law.invention, chemistry.chemical_compound, chemistry, law, Optoelectronics, Photonics, business, Quantum cascade laser, Computer Science::Databases, Quantum well, Molecular beam epitaxy

Abstract

The characteristics of intersubband transitions in III-nitride quantum wells are promising for detectors and all-optical switches through a high intrinsic speed (similar to 1 THz), and can also pro ...

Published

2007

5. GaN/AlN multiple quantum well structures grown by MBE on GaN templates for 1.55 μm intersubband absorption

Author

Thorvald Andersson, Lars Thylen, T. Aggerstam, Petter Holmström, Peter Jänes, Sebastian Lourdudoss, and X. Y. Liu

Subjects

chemistry.chemical_compound, Template, chemistry, business.industry, Multiple quantum, Sapphire, Optoelectronics, Gallium nitride, Metalorganic vapour phase epitaxy, business, Absorption (electromagnetic radiation), Quantum well, Molecular beam epitaxy

Abstract

We have used MBE to grow MQW structures on MOVPE GaN/sapphire templates. The MQW devices are intended for high speed intersubband electroabsorption modulator devices operating at 1.55-mu m. The GaN ...

Published

2007