Search for public opportunitiesRegister now and browse all open positions. It's free!Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Notify me when new projects of my interest are advertized!You define what you are interested in and we will send you an Email when a new project matches your criteria, it's that easy. You define what you are interested in and we will send you an Email when a new project matches your criteria, it's that easy. Results |
|---|
Periodically poled lithium niobate waveguides are an excellent source of photon pairs via spontaneous parametric down-conversion (SPDC) with applications in quantum computing, communication and sensing. For scalable quantum computing, one photon is detected to herald the presence of the partner photon. It is critical the quantum state of the heralded photon is pure without the need for spectral filtering. Standard periodically poled waveguides prepare photons that are highly correlated and are unsuitable for quantum computing. This project will develop Python software for simulating lithium niobate waveguides to predict the spectral properties of the generated photons, including optimizers and graphical interfaces. The goal is to design lithium niobate waveguides that can prepare pure heralded photons based on SPDC. This project will take place in the Optical Nanomaterial Group at ETH Zurich. - Optical Physics
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| Lithium niobate on insulator is a new photonics platform with excellent linear and nonlinear optical properties for quantum information applications. Quantum walks, based on arrays of coupled waveguides, enable the study of multi-modal quantum systems and are a platform for quantum simulation. Nonlinear optics, such as three-wave and four-wave mixing could add a new dimension to quantum walks enabling the study of richer physics. This project will focus on the simulation and design of waveguide array for linear optical applications, such as implementation of quantum gates, and then with nonlinear capabilities. A software package will be developed in Python to simulate linear and nonlinear quantum walks, and chip designs will be generated for fabrication. This project will take place in the Optical Nanomaterial Group at ETH Zurich. - Optical Physics
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| Basierend auf Ihren Kenntnissen aus der Vorlesung «Optimierung landwirtschaftlicher Produktionssysteme» erstellen Sie ein Optimierungsmodell in Excel oder R und beantworten damit eine von Ihnen erarbeitete Forschungsfrage. - Agricultural Economics, Environmental Sciences, Operations Research
- Bachelor Thesis
| Climbers train their finger strength on the campus board. If the forces at the bars are measured, performance analysis becomes possible. In a recent bachelor thesis, we designed an instrumentation for a campus board which should now be further developed to run first experiments in campus board training. - Engineering and Technology, Human Movement and Sports Science
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| The surface of the gastrointestinal (GI) tract is covered by a mucosal membrane, consisting of enormous health-related biochemical, physiologic, and pathophysiologic information, and serving for nutrition exchange. Progress has been made to access the GI mucosa for diagnostics and therapeutics in clinical settings. However, it is still extremely challenging to build a biocompatible and robust GI mucosa interface enabling real-time, continuous, and minimally invasive interactions with human body, due to the constant GI motility, fast cellular turnover rate, limited cavity space and extremely chemical and biological environments
In the Traverso Laboratories at Brigham and Women’s Hospital (Harvard Medical School), We are exploring novel engineering approaches to develop robust mucosal interfaces for long-term deployment of micro-electronics/drug reservoirs/physical barriers in the GI tract.
- Biomaterials, Biomechanical Engineering, Mechanical Engineering, Polymers
- Master Thesis
| Do you look for a internship to get your first working experience? Would you like to work in a young, fast-moving startup in a highly-diverse, motivated team? Would you like to do lab work, which will turn into a real product to improve peoples life? Then contact us! - Engineering and Technology, Physics
- Internship, Lab Practice, Semester Project, Student Assistant / HiWi
| This Master Thesis aims to develop an algorithm to classify different movements that could occur during sleep. Data is readily available from previous recordings but can be extended using additional measurements. - Engineering and Technology
- Master Thesis
| Endovascular stents (endografts) are used to repair aortic aneurisms within the blood vessel without open surgery. Self expanding endografts are composed of a Nitinol frame covered with a woven polyester material that is similar to the standard surgical grafts. For deployment, the grafts are loaded in so called catheters.
- Biomechanical Engineering, Mechanical Engineering
- Internship, Semester Project
| Patients with atherosclerotic cardiovascular disease (ASCVD) are at high risk of suffering from future ASCVD events despite contemporary preventive therapies, and this risk has been termed “residual risk”. While the overall incidence of ASCVD has declined, the greatest decline has been in pre-hospital fatal events. Even with recent advances in cardiovascular interventions including statins, dual antiplatelet therapies, revascularization, and other therapies, ASCVD event rates among patients with prior ASCVD remain high (>3% per year). Furthermore, patients with ASCVD have a range of risks, yet personalized risk stratification tools are lacking. - Information, Computing and Communication Sciences, Mathematical Sciences, Medical and Health Sciences
- Master Thesis
| Smart sensors for real-time detecting gas phase substances are essential for a lot of potential application such as wearable electronics, intelligent diagnosis, environmental monitoring, etc. at the coming era of internet of things (IoTs). Flexible, transparent sensing devices will enable easier and more comfortable integration with other consumer electronics in our daily life. Ionic liquid, as an emerging sensing material, exhibits potentials with thier high sensitivity, excellent transparency, and intrinsic flexibility. Yet their poor selectivity towards various components hinders the wide application of those devices, where, therefore, research focus is desired. - Sensor (Chemical and Bio-) Technology
- Master Thesis
|
|
