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Full-Text Articles in Physical Sciences and Mathematics
Two-Dimensional Electron Gases At The Surface Of Potassium Tantalate, Ben Pound
Two-Dimensional Electron Gases At The Surface Of Potassium Tantalate, Ben Pound
Ben Pound
No abstract provided.
Two-Dimensional Electron Gases At The Surface Of Potassium Tantalate, Ben Pound
Two-Dimensional Electron Gases At The Surface Of Potassium Tantalate, Ben Pound
Browse All Undergraduate research
No abstract provided.
Open Source Electronics For Laboratory Physics, Zengqiang John Liu
Open Source Electronics For Laboratory Physics, Zengqiang John Liu
Physics and Astronomy Faculty Presentations
Open-source electronics are electrical circuits and devices whose designs are released to the public by the designers, so others may modify and improve them. Using open-source data acquisition electronics in laboratory physics will dramatically reduce the cost of laboratory electronics and empower instructors to develop new laboratory activities, demonstrations and exploratory projects with students. This workshop will improve participants' understanding of open-source electronics and their applications in laboratory physics. Many laboratory physics sensors and open-source devices will be introduces and demonstrated. The workshop provides hands-on experiences in projects using laboratory physics sensors with an award-winning, low-cost, open-source electronic data acquisition …
Microwave Properties Of Magnetic Nanowires Arrays, Daniel Adams
Microwave Properties Of Magnetic Nanowires Arrays, Daniel Adams
Innovate UNO
This study focused on examining high-frequency properties of magnetic nanowire arrays. The microwave was produced by a Vector Network Analyzer (VNA) and transmitted through coplanar waveguides (CPW). The CPWs are 300 µm long with signal line width of 20 µm, ensuring minimum losses due to radiation. CPWs were fabricated through the photolithography process. The magnetic nanowires were fabricated through e-beam lithography on top of the CPW. The VNA was used to feed the CPW and measurements of the FMR absorption allowed us to understand the effect of interaction between nanowires on their dynamic properties.