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Automating Knife-Edge Method Of Thz Beam Characterization, Christopher Charles Faber
Automating Knife-Edge Method Of Thz Beam Characterization, Christopher Charles Faber
Undergraduate Research & Mentoring Program
The goal of this project is to create a time and cost-effective solution for THz beam profiling.
The knife edge method of beam characterization is a technique to verify the intensity profile of a beam involving traveling a blade orthogonal to the beam path and measuring transmission in successive steps. We use a vector network analyzer (VNA) to measure S21 transmission from a THz source. Manual implementation of this method was time-consuming and inefficient.
Project hardware includes an Arduino, a motor shield, and a ball screw linear rail with stepper motor actuator. Software was created in LabView and data is …
Laser-Scribed Graphene Micro-Supercapacitors, Kimi D. Owens
Laser-Scribed Graphene Micro-Supercapacitors, Kimi D. Owens
Undergraduate Research & Mentoring Program
M. F. El-Kady and R. B. Kaner, “Scalable fabrication of high-power graphene micro-supercapacitors for flexible and on-chip energy storage,” Nature Communications, vol. 4, p. 1475, Feb. 2013.
Supercapacitors are electrical components that have higher energy density than regular capacitors. Currently, they are large and bulky which makes it hard to be implemented into smaller electronic devices or on-chip. In Scalable Fabrication of High-power Graphene Micro-supercapacitors for Flexible and On-chip Energy Storage, El-Kady and Kaner developed an inexpensive and reliable method for scaling down supercapacitors to be approximately 7.53 x 5.35 mm. To make the laser-scribed graphene (LSG) micro-supercapacitors, an aqueous …