Thurston said neutron detectors are important because they allow us to understand processes that charged particles cannot interact with. His detector is unique because it combines a gadolinium activation layer with a special diamond-based diode called a Schottky diode, allowing efficient capture of high-energy neutrons. The combination of these factors makes it widely applicable in many research fields, but Thurston specifically explored diamonds as material used in neutron detectors.įor his research, Thurston designed and constructed a neutron detector that captures neutrons at higher energy levels than previous detectors have reached. A diamond’s unique crystalline structure of carbon atoms allows it to withstand high electric fields and pressures and makes it an excellent conductor of electricity. Thurston investigated the properties of diamond and its applications in nuclear engineering. Thurston restored local physics lab power within minutes using only his truck and a few items from his glove compartment.” “The background explanations he provides to students at the beginning of the lab are rich and insightful. “He has been a tremendous help in the physics department both inside and outside the classroom,” Hosmer said. According to Paul Hosmer, chair of Hillsdale’s physics department, Thurston has been a valuable part of the Hillsdale physics education. Thurston currently teaches the lab portion of Physics 100. ![]() Thurston defended his dissertation, titled “The Development Of A Novel Diamond-Based Neutron Detector and Quantum Color Center Fabrication Framework,” in front of a committee. in physics and computational math, science, and engineering from Michigan State University on March 29. The topics of the Innovation Campus Frankfurt are in strong link with the Energy Transition.The Campus focuses on main activities in process development and engineering solutions on: Carbon Management and Less Carbon Emissions for Hydrogen & Syngas Production.Lecturer in Physics Hank Thurston earned his Ph.D. E&C is delivering innovation for a sustainable world enabling customers to optimize the use of natural resources through E&Cs industrial gas, energy conversion and gas purification technologies. With Engineering & Construction, Air Liquide has a strong foothold for plant engineering in Germany, supporting its customers throughout the entire project life-cycle by offering cryogenic and catalytic process plants. The company employs 1,650 people at more than 45 locations. VitalAire cares for more than 190,000 patients throughout Germany. In 2011, the portfolio had already expanded with the business areas Respiration, Infusion and Out-of-Hospital Intensive Care. In 2004, the company entered the liquid oxygen business. VitalAire Germany was founded in 2000 through a merger of several companies. ![]() Overall, Air Liquide has about 3,750 employees in Germany. The German home healthcare business is managed from Hamburg.Īir Liquide Deutschland (ALD) supplies around 100,000 customers from all industries, small and medium-sized businesses, with technical gases, specialty gases and gas mixtures, as well as patients at home and hospitals. The headquarters for the industrial and medical gases business in Germany is located in Düsseldorf, close to the Ruhr area - one of Europe’s key industrial bassins. Here you also find the worldwide leadership teams of the Large Industries World business line and the Engineering & Construction World business unit, as well as the Innovation Campus Frankfurt, one of the key Research & Development centers of Air Liquide Group worldwide. Today, Air Liquide Europe Head Office is located in Frankfurt.
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