Margaret Reid (scientist) explained

Margaret Reid
Birth Name:Margaret Daphne Reid
Thesis Title:Squeezing and quantum effects in optics
Thesis Url:https://hdl.handle.net/2292/1687
Thesis Year:1984
Doctoral Advisor:Dan Walls
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Professor Margaret Daphne Reid from Swinburne University of Technology (Melbourne, Australia) is a Fellow of the Australian Academy of Science. She is known for her pioneering work in new fundamental tests of quantum theory, including teleportation and cryptography.[1]

Career

Reid graduated from the University of Auckland with a B.Sc. in 1978 and an M.Sc. in theoretical physics in 1980.[2] She then undertook Ph.D. studies at Auckland University with Dan Walls FRS, graduating in 1984 with a doctoral thesis titled Squeezing and quantum effects in optics.[3] She developed theories for the generation of squeezed states of light and quantum non-demolition measurement. Following several years as a lecturer at the University of Waikato, New Zealand, she was awarded an Australian QEII Fellowship to do research at the University of Queensland. She later became a researcher with the Australian Research Council Centre of Excellence in Quantum and Atom Optics at the University of Queensland.[4] She is currently Professor at Swinburne University of Technology in Melbourne and works as a researcher within the Centre for Quantum and Optical Sciences.

Research

Reid's work has focused on the fundamental tests of quantum mechanics, including of the Einstein-Podolsky-Rosen paradox and Bell's theorem, based on parametric down conversion and quantum optics. On working with squeezed states of light in the 1980s, Reid thought of a way to test entanglement, after noting scientists were able to amplify and detect the tiny quantum fluctuations of optical amplitudes. Experiments since have confirmed this mesoscopic type of entanglement in a range of environments, which enables a closer understanding of Schrödinger's cat.[5] [6]

In the 1990s, scientists realised one can securely transmit a message through encrypting and using a shared key generated by entanglement to decode the message from the sender and receiver. Using the quantum key meant the message was completely secure from interception during transmission. In a landmark publication,[7] Reid's research group outlined Einstein's reservations about entanglement, a phenomenon he referred to as "'spooky' action at a distance". In this paper, a theoretical proof that such messages can be shared between more than two people and may provide unprecedented security for a future quantum internet, is provided for the first time.

Sending entanglement to a larger number of people means the key can be distributed among all the receiving parties, so they must collaborate to decipher the message, which makes the message even more secure. The report showed that a secure message can be shared by up to three to four people, opening the possibility to the theory being applicable to secure messages being sent from many too many. The message will also remain secure if the devices receiving the message have been tampered with, like if an iPhone were hacked, because of the nature of entanglement. Discovering that it can be applied to a situation with more parties has the potential to create a more secure Internet – with less messages being intercepted from external parties.

Honours and awards

For Reid's contributions to the fields of quantum entanglement and non-locality, she was made a fellow of the Optical Society of America and a fellow of the American Physical Society. She was also awarded a visiting position at Harvard University and a JILA Fellowship at the University of Colorado in the USA.

The Fellowship of the Australian Academy of Science (received in 2014) is a great accomplishment for any Australian scientist, but Reid sees it as further recognition for women scientists: "The idea that women are in any way inferior when it comes to doing physics or mathematics is a complete myth. Unfortunately, a big problem is that not all the great achievements made by the women physicists of the last century were properly recognised. But that has and will continue to change as more and more women are recognised for their contributions to science."[14]

Notes and References

  1. Web site: Margaret Reid elected Fellow for work in quantum theory, including teleportation and cryptography . . 15 August 2014.
  2. Web site: Reid, Margaret Daphne . The Encyclopedia of Australian Science and Innovation . 19 June 2022.
  3. Reid . Margaret . 1984 . Doctoral thesis . Squeezing and quantum effects in optics . ResearchSpace@Auckland, University of Auckland . 2292/1687.
  4. http://www.physics.uq.edu.au/BEC/ Australian Research Council Centre of Excellence in Quantum and Atom Optics
  5. Web site: Einstein vs quantum mechanics ... and why he'd be a convert today . Theconversation.com . 2014-08-14.
  6. Web site: Einstein vs quantum mechanics, and why he'd be a convert today . Phys.org . 1995-12-23 . 2014-08-14.
  7. He . Q. Y. . Reid . M. D. . Genuine Multipartite Einstein-Podolsky-Rosen Steering . Physical Review Letters . American Physical Society (APS) . 111 . 25 . 2013-12-18 . 0031-9007 . 10.1103/physrevlett.111.250403 . 250403. 24483733 . 1212.2270 . 1959.3/371483 . 37786836 . free .
  8. Web site: Moyal Medal. 3 December 2021. Macquarie University.
  9. Web site: Public Fellows List. 3 December 2021. Australian Institute of Physics.
  10. Web site: APS Fellow Archive. 3 December 2021. American Physical Society.
  11. Web site: Margaret Reid Australian Academy of Science Profile. 3 December 2021. Australian Academy of Science.
  12. Web site: Recent Fellows. 3 December 2021. Optica.
  13. Web site: Researcher Profile Swinburne University of Technology Melbourne. 2020-09-13. www.swinburne.edu.au.
  14. Web site: 2014-03-26. March – Margaret Reid elected Fellow for work in quantum theory, including teleportation and cryptography – Swinburne University of Technology. 2014-08-14. Swin.edu.au.