Course Title: Advanced Quantum Physics and Photonics

Part A: Course Overview

Course Title: Advanced Quantum Physics and Photonics

Credit Points: 12.00

Course Coordinator: Professor Salvy Russo

Course Coordinator Phone: +61 3 9925 2601

Course Coordinator Email: salvy.russo@rmit.edu.au

Course Coordinator Location: 014.12.014

Course Coordinator Availability: By appointment

Pre-requisite Courses and Assumed Knowledge and Capabilities

Required Prior Study

You should have satisfactorily completed courses before you commence this course.

• PHYS2190 Optics and Quantum Physics (Course ID 055321)

Alternatively, you may be able to demonstrate the required skills and knowledge before you start this course.

Contact your course coordinator if you think you may be eligible for recognition of prior learning. 

Course Description

Quantum theory provides the basis for our current understanding of how the universe works. Specifically, it predicts that energy comes in tiny packets known as quanta. A quantum of light is called a photon and photonics is the study of the interactions between light and matter. In this third-year course you will learn about these topics and their applications. You will study photonics and other advanced topics in quantum theory, including modern instrumentation, the electronic structure of matter, and the interpretations of quantum mechanics. This course is essential for those wishing to undertake further study in physics, beyond the undergraduate level.

Objectives/Learning Outcomes/Capability Development

Program Learning Outcomes

The course is a program option course, however, will contribute to the following program learning outcomes for:

BP350 Bachelor of Science

• PLO1: Apply a broad and coherent knowledge of scientific theories, principles, concepts and practice in one or more scientific disciplines.
• PLO3 Analyse and apply principles of scientific inquiry and critical evaluation to address real-world scientific challenges and inform evidence based decision making. 
• PLO4 Communicate, report and reflect on scientific findings, to diverse audiences utilising a variety of formats employing integrity and culturally safe practices.  

For more information on the program learning outcomes for your program, please see the program guide.

Course Learning Outcomes

Upon successful completion of this course you will be able to:

1.  Compare and contrast key principles relevant to the interaction of light and matter via advanced quantum theory topics
2. Demonstrate proficiency in scientific inquiry to solve  problems related to quantum theory and photonics.
3. Critically reflect on and discuss the importance of  optical and electronic properties of solids at the atomic level in the description of  modern devices.

Report and justify laboratory findings on  quantum theory and photonics to diverse audiences.

Overview of Learning Activities

You will be actively engaged in a range of learning activities such as lectorials, tutorials, practicals, laboratories, seminars, project work, class discussion, individual and group activities. Delivery may be face to face, online or a mix of both.

You are encouraged to be proactive and self-directed in your learning, asking questions of your lecturer and/or peers and seeking out information as required, especially from the numerous sources available through the RMIT library, and through links and material specific to this course that is available through RMIT Student Website.

You will learn in this course through:

• Recorded lectures, that may also be supported by lectorials, where concepts will be introduced and explained through worked examples and demonstrations;
• private study, such as revising the concepts presented in lectures and practice at solving conceptual and numerical problems;
• participation in tutorials designed to give you further practice in the application of important concepts, as well as feedback on your progress;
• completing assignments that require an integrated understanding of the subject matter;
• performing experiments related to the course material and the writing of laboratory reports.

Overview of Learning Resources

RMIT will provide you with resources and tools for learning in this course through RMIT Student Website.

There are services available to support your learning through the University Library. The Library provides guides on academic referencing and subject specialist help as well as a range of study support services. For further information, please visit the Library page on the RMIT University website and the RMIT Student Website.

Extensive use will be made of the prescribed text and its associated learning materials. Other notes may also be provided. You will have access to laboratory facilities on campus.

Overview of Assessment

Assessment Tasks

Assessment item 1: Quizzes
Weighting: 10%
This assessment task supports CLO2.

Assessment item 2: Problem solving Assignments
Weighting: 25%
This assessment task supports CLO1 & CLO2.

Assessment item 3: Laboratory report
Weighting: 25%
This assessment task supports CLO3 & CLO4.

Assessment item 4: Timed assessment
Weighting: 40%
This assessment task supports CLO1, CLO2 & CLO3.

 

If you have a long term medical condition and/or disability it may be possible to negotiate to vary aspects of the learning or assessment methods. You can contact the program coordinator or Equitable Learning Services if you would like to find out more.