Carrier Transport
... fret, for we have been introducing concepts from different areas of physics throughout this course. We have brought together concepts from different areas of physics to produce a synthesis upon which we have developed a powerful foundation to predict the physical, electronic and optical properties o ...
... fret, for we have been introducing concepts from different areas of physics throughout this course. We have brought together concepts from different areas of physics to produce a synthesis upon which we have developed a powerful foundation to predict the physical, electronic and optical properties o ...
Customized Delivery of Photodynamic Therapy to Tumor Sites
... generate highly reactive singlet oxygen atoms to kill malignant cells by exciting a photosensitizer drug applied to the lesions. To achieve a good PDT treatment outcome, a precise and effective optical delivery system with customizable optical output beam profile is important. In this project, we pl ...
... generate highly reactive singlet oxygen atoms to kill malignant cells by exciting a photosensitizer drug applied to the lesions. To achieve a good PDT treatment outcome, a precise and effective optical delivery system with customizable optical output beam profile is important. In this project, we pl ...
Comparison of y-scaling for Electrons and Hadrons
... Assumptions: One and only one elastic collision between the beam particle and a bound nucleon, for “billiard ball” kinematics. Thus, combine q and w data to a single scaling variable=y today. In-medium elastic cross sections are known from free space scattering, with known off-shell effects. The n ...
... Assumptions: One and only one elastic collision between the beam particle and a bound nucleon, for “billiard ball” kinematics. Thus, combine q and w data to a single scaling variable=y today. In-medium elastic cross sections are known from free space scattering, with known off-shell effects. The n ...
Physics 5002 (Spring 2017) Discussion Problem (4/20) Consider
... The energy of the particle is E = h̄2 k 2 /(2m) > V0 . Take the incident wave to be exp(ikx) in the region of x < 0. 1. Derive the amplitude A of the reflected wave A exp(−ikx) in the region of x < 0. 2. Derive the amplitude D of the transmitted wave D exp[ik(x − L)] in the region of x > L. 3. Show ...
... The energy of the particle is E = h̄2 k 2 /(2m) > V0 . Take the incident wave to be exp(ikx) in the region of x < 0. 1. Derive the amplitude A of the reflected wave A exp(−ikx) in the region of x < 0. 2. Derive the amplitude D of the transmitted wave D exp[ik(x − L)] in the region of x > L. 3. Show ...