The use of digital data is increasing faster than our ability to uncover new bandwidth. Space division multiplexing (SDM) is the next frontier in fiber-optic communications. SDM utilizes the space dimension in specialty fibers to substantially increase the capacity of lightwave communication systems. The outstanding challenge towards deployment is finding truly scalable solutions that avoid a linear increase of cost and power consumption with capacity.
The general aim of this project is to investigate the use of microresonator frequency combs for space division multiplexing. Microresonator combs provide an unprecedented opportunity to enhance the operability of SDM systems thanks to their compatibility with photonic integration, high performance and broad bandwidth. We have obtained funding from the European Research Council through a Consolidator grant to explore this emerging line of research. We are seeking postdoctoral fellows with expertise in numerical modeling of nonlinear optics, ultrafast photonics and/or fiber-optic communication systems.
The Photonics laboratory at the Microtechnology and Nanoscience Department (MC2) is a dynamic and creative group with about 30 members working in an international and collaborative atmosphere. We perform both curiosity-driven and applied-research in the areas of optoelectronics, nanophotonics, and fiber optic systems. We enjoy a state-of-the-art laboratory for fiber-optic communications and have access to in-house cleanroom facilities to manufacture photonic devices. Major responsibilities As postdoctoral fellow, your main responsibilities are to lead and conduct research, and guide junior PhD students. You will have the freedom to contribute with your ideas, and the support from an outstanding team of more senior researchers. You will have the opportunity to collaborate and perform short research stays with our colleagues from the US, Denmark, UK, Japan and Spain. The position is meritorious for future research duties within academia as well as industry/the public sector.
Position summary The postdoctoral position is a full-time employment position limited to 2 years. We offer a competitive salary, excellent working conditions and access to world-class facilities and infrastructure. Starting date is negotiable.
Qualifications You should have a PhD degree (or equivalent) in Applied Physics, Engineering Physics, Electrical Engineering or similar. The topic of your PhD must be directly related to at least one of the following areas:
• Metrology with laser frequency combs (microresonator frequency combs, modelocked fiber lasers…) • Fiber-optic coherent communication systems (SDM transmission experiments, DSP…) • Numerical modeling of nonlinear complex phenomena (supercontinuum, nonlinear waveguides…)
Chalmers continuously strives to be an attractive employer. Equality and diversity are substantial foundations in all activities at Chalmers.
Application procedure The application should be marked with Ref 20170662 and written in English. The application should be sent electronically and be attached as pdf-files, as below:
CV:(Please name the document as: CV, Surname, Ref. number) including: • CV, include complete list of publications • Previous teaching and pedagogical experiences • Two references that we can contact.
Personal letter:(Please name the document as: Personal letter, Family name, Ref. number) including: • 1-3 pages where you introduce yourself and present your qualifications. • Previous research fields and main research results. • Future goals and research focus. Are there any specific projects and research issues you are primarily interested in?
Other documents: • Attested copies of completed education, grades and other certificates.
Application deadline: 31 May, 2018
Please apply directly through Chalmers website www.chalmers.se in the tab vacancies. Go to the post with reference number 20170662.
For questions, please contact: Associate Professor Victor Torres Company email@example.com Phone: +46 - 31 772 1904
About Chalmers University of Technology
Chalmers University of Technology is located at the heart of Gothenburg city in Sweden. It conducts research and education in engineering sciences, architecture, technology-related mathematical sciences, natural and nautical sciences, working in close collaboration with industry and society. The strategy for scientific excellence focuses on our eight Areas of Advance; Building Futures, Energy, Information & Communication Technology, Life Science, Materials Science, Nanoscience & Nanotechnology, Production and Transport. The aim is to make an active contribution to a sustainable future using the basic sciences as a foundation and innovation and entrepreneurship as the central driving forces. Chalmers has around 11,000 students and 3,000 employees. New knowledge and improved technology have characterised Chalmers since its foundation in 1829, completely in accordance with the will of William Chalmers and his motto: Avancez!
The Department of Microtechnology and Nanoscience (MC2) focuses on research, innovation and education within the fields of future electronics, photonics, bio- and nanosystems. A close collaboration with Swedish and international partners within academia, indu...stry and society enables scientific excellence and creates an innovative environment. In addition to the 200 researchers and PhD students, MC2 houses a cleanroom for micro- and nanofabrication with the latest equipment.
The Photonics laboratory at MC2 is a dynamic and creative group with about 30 members working in an international and collaborative atmosphere. We perform both curiosity-driven and applied-research in the areas of optoelectronics, nanophotonics, and fiber optic systems. We enjoy a state-of-the-art laboratory for fiber-optic communications and have access to in-house clean-room facilities to manufacture photonic devices engineered at the nanoscale. Part of our recent research efforts focus on Next-generation optical communication systems featuring ultra-fast data rates (>1 Tb/s); optical fiber amplifiers with world-record noise figures (1 dB); and ultra-high-repetition-rate (>10 GHz) optical frequency comb technology.