探花社区

About us

The Department of Signatorics at the Fraunhofer Institute for Optronics, System Technology and Image Exploitation (IOSB) in Ettlingen is offering an internship on the subject of free-space laser communications. This opportunity is aimed at students in the fields of electrical engineering, physics, computer science or related disciplines.

The internship would be based in the Adaptive Optics Group where research themes revolve around imaging through turbulence (especially along horizontal paths and strong turbulence) and free-space laser communications. The team develops simulations, theoretical models, image processing software and adaptive opticssystems. For more information about the Adaptive Optics Group at Fraunhofer IOSB, please visit .

听

Motivation

Free-space (not cable/fiber-dependent) optical communications offers a huge potential for many applications involving the transfer of large amounts of data. Still, the limitations imposed on the deployment of such systems by atmospheric effects are significant. In the department Signatorics we work to counter these effects and enable high-data-rate terrestrial and space-to-ground optical communications.
Putting aside completely disruptive phenomena such as rain or fog, atmospheric turbulence influences the power delivered to the terminal and the number of errors in the transmission. Fraunhofer IOSB addresses the problem with advanced adaptive optics (AO) technology. In the AO laboratory in Ettlingen we develop solutions to the most challenging problem of laser propagation over distances longer than ~1 km through strong turbulence near the ground.

听

Goals

Traditional AO systems have three main components: a wavefront sensor, a deformable mirror and a reconstruction computer. Wavefront sensorless AO disposes of the first element and relies on blind optimization algorithms to improve a suitable metric related to the turbulence degradation of the optical system under consideration. The most widely used algorithm in wavefront sensorless AO is the stochastic parallel gradient descent (SPGD). In the project, the student will work on a lab demonstrator to investigate the capabilities of wavefront sensorless AO. Alternatively the student can build a demonstrator based on the newly invented spectral wavefront sensor.

Your tasks

• You will be supplied with an optical testbed and software (Matlab and LabView) for wavefront sensorless AO. The setup features a spatial light modulator to generate defined, artificial turbulence, and a deformable mirror as a correction device. After getting familiar with the core components of the experiment, you will be tasked to align the setup and close the AO loop.
• You will be asked to integrate a calibration procedure for the deformable mirror in the setup.
• You will be tasked with the adaptation of the testbed into an operational lab demonstrator. For this purpose, meaningful live experiments should be designed and user-friendly interface should be implemented.

Your profile

• You are enrolled in a college or university and study electrical engineering, physics, computer science or a similar subject.
• 听You have experience with the Matlab, Python or Julia programming language; experience with LabView would be helpful.
• You know the principles of optics and laser physics.
• 听You have a hands-on mentality and some experience with aligning optical systems.

Your benefits

• You work on current scientific questions that are highly relevant to the scientific community.
• You will have access to exceptionally equipped laboratories, with several unique, not commercially available devices. Details of the equipment can be found under
• You will be supervised by experts in the fields of: turbulence, telecommunications and laser physics.听
  听

Your application

Interested? Apply online now. We look forward to getting to know you!