This course is not offered in 2019
Measurement plays a critical role in the advancement of science and technology. As humanity progresses, our demand for precision measurements involves increasingly complex instruments which require a comprehensive understanding of physics, electronics, computing, automation, signal and data processing, encapsulated by a culture of design and innovation. In this program, students will learn the principles of the science and technology behind advanced measurement and detector systems. This course mainly concerns detection and signal measurement of particles (neutral atoms, ions) and photons. We will examine several operational complex detection and measurement systems and assess how these instruments are designed and constructed for specific application(s). Particular case studies could include space missions, synchrotrons, particle accelerators and mass spectrometers. Coverage will include specifics of the detector systems as well as critical support systems (vacuum, power, temperature stabilization, mechanical isolation)
Learning Outcomes
Upon successful completion, students will have the knowledge and skills to:
Upon successful completion of this course, students will have the knowledge and skills to:- Understand the physical principles behind detectors and sensors.
- Apply the knowledge of detectors and sensors to a particular measurement problem.
- Analyze a complex measurement system, identify component parts and their relationships, and determine the performance of the system.
- Evaluate the performance and limits of a variety of detector systems.
Indicative Assessment
Assessment will be based on:- Labs 20% (LO 2,3,4)
- Assignments 40% (LO1-4)
- Case Study report/Exam 30% (LO1-4)
- Regular quizzes 10% (LO1)
In response to COVID-19: Please note that Semester 2 Class Summary information (available under the classes tab) is as up to date as possible. Changes to Class Summaries not captured by this publication will be available to enrolled students via Wattle.
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Workload
120 hours of total student learning time, including: 42 hours of lectures and drop-in sessions, 16 hours of laboratories, and individual study.Requisite and Incompatibility
Assumed Knowledge
12 units of university level mathematics for physicists and engineers. 12 units of first year university advanced level physics.Fees
Tuition fees are for the academic year indicated at the top of the page.
If you are a domestic graduate coursework or international student you will be required to pay tuition fees. Tuition fees are indexed annually. Further information for domestic and international students about tuition and other fees can be found at Fees.
- Student Contribution Band:
- 2
- Unit value:
- 6 units
If you are an undergraduate student and have been offered a Commonwealth supported place, your fees are set by the Australian Government for each course. At ANU 1 EFTSL is 48 units (normally 8 x 6-unit courses). You can find your student contribution amount for each course at Fees. Where there is a unit range displayed for this course, not all unit options below may be available.
Units | EFTSL |
---|---|
6.00 | 0.12500 |
Course fees
- Domestic fee paying students
Year | Fee |
---|---|
2020 | $4050 |
- International fee paying students
Year | Fee |
---|---|
2020 | $5760 |
Offerings, Dates and Class Summary Links
ANU utilises MyTimetable to enable students to view the timetable for their enrolled courses, browse, then self-allocate to small teaching activities / tutorials so they can better plan their time. Find out more on the Timetable webpage.
Class summaries, if available, can be accessed by clicking on the View link for the relevant class number.
First Semester
Class number | Class start date | Last day to enrol | Census date | Class end date | Mode Of Delivery | Class Summary |
---|---|---|---|---|---|---|
3609 | 24 Feb 2020 | 02 Mar 2020 | 08 May 2020 | 05 Jun 2020 | In Person | N/A |