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A History of the Mopra SIS Receiver

A History of the Mopra SIS Receiver. A History of the f****** Mopra SIS Receiver. What is this SIS receiver thingy?. A radio-telescope receiver used on the ATNF’s Mopra dish. A dual polarisation receiver capable of observing in the 84 GHz to 116 GHz frequency range.

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A History of the Mopra SIS Receiver

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  1. A History of the Mopra SIS Receiver

  2. A History of the f****** Mopra SIS Receiver

  3. What is this SIS receiver thingy? A radio-telescope receiver used on the ATNF’s Mopra dish. A dual polarisation receiver capable of observing in the 84 GHz to 116 GHz frequency range The translation of the astronomical signals at high frequency to a lower frequency is achieved using Superconductor-Insulator-Superconductor (SIS) mixers cooled to 3.5 K

  4. It looks like this… Outside… …Inside

  5. It had a grid polariser that had to be protected at all costs… …and no spare mixers!

  6. There were always thoughts of millimetre observing on an ATNF telescope. Way back when…. Mopra’s wheel on track configuration was thought to have the potential for better support of the dish surface compared to the Narrabri configuration and this idea was floating around in the mid 80’s Compact Array design period.

  7. The Mopra dish surface used to have solid surface to a diameter of ~15 metres

  8. - Papers encouraging the development of millimetre capabilities within the ATNF - Peter Hall a notable proponent via internal reports. No shortage of enthusiasm from John Whiteoak 1990 - Graham Moorey at NRAO’s Kitt Peak mm wave telescope gaining experience - SIS is state of the art

  9. - Moorey sets up a lab to make the SIS receiver. - NRAO’s John Payne in Oz and does design work 1990-92 - Carrad goes to work for NRAO in Tucson

  10. - ‘Proof of concept’ receiver is installed. - Tuning must be done at the receiver using individual electronic boxes rather than the integrated electronics that was to come. 1994 - Only one polarisation available

  11. First light!

  12. - A more integrated receiver is installed. - Tuning must be still be done at the receiver but all electronics is now ‘on board’ to eventually allow remote tuning. 1995 - Two polarisations available

  13. The paddle wasn’t always there An early scheme had a rotating chopper with absorber to give ‘dynamic’ Y-factors referenced to the sky but it’s inception was foiled by the desire to incorporate it into the rest of the standard AT synchronous demodulation scheme. The time constants involved rendered it less than useful and the paddle was used in its place.

  14. 1997 Computer control of tuning from a control room PC made available (Simon Hoyle) Additional control and monitor electronics were installed to allow this.

  15. Surface adjustments A coma lobe is revealed Subreflector or optics box or alignment? ‘On-telescope’ tests suggests the receiver and optics box. Beam patterns measured from the optics box and modelling suggests that the optics box/receiver combination is not the cause A subreflector shift improves the situation

  16. 2000 UNSW collaboration with ATNF leads to the dish receiving a solid surface out to 22 metres

  17. Receiver noise temperatures were of the order of 80K in the 80 GHz region rising to ~120K in the 115 GHz region Receiver performance coincidentally tied to frequency

  18. UNSW ‘Friend of Mopra’ A scheme whereby a UNSW person was dedicated to learning how to use the system and assist other users Ramesh Balasubramanyam, Lucyna Kedziora-Chudczer, Cormac Purcell. The ATNF also assigned a Mopra ‘helper’. Stuart Robertson, Juergen Ott Combined with the Induction days the scheme was a welcome innovation

  19. Long serving assistants Robina Otrupcek Warwick Wilson and his group Mike Kesteven A host of Narrabri staff Graham Moorey

  20. Evolution of the Optics box The optics box was required because the feed was cooled and hence located inside the dewar. The constraints imposed by the structure and the position of other receivers made it unfeasible to position the feed at the Cassegrain focus so the beam was expanded and refocussed.

  21. Optics Box Version 1 1994-1998 Its size restricted the range of turret rotation

  22. Optics Box Version 2 1998-1999 This change allowed the turret to be rotated through its full range

  23. Optics Box Version 3 2000-2005 This version achieved full illumination of the dish surface

  24. Version 1 Version 2 Version 3

  25. Outcomes of its use A useful test bed for other systems on the ATNF’s Compact Array both engineering wise and astronomically. Data for many projects and notably PhD data for students like Kate Brooks, Maria Hunt and Eric Muller. An educational tool and filter for UNSW students. Only the strong will survive The scroll compressor was a test bed for the upgrade to the Compact Array and the model for ALMA

  26. A Testimonial from John Whiteoak “I realise that a lot of people have criticised the final product, but I was not one of them because I enjoyed using it. I believe it provided state-of-the- art performance and if it was a bit of a bugger to adjust then so be it. The systems on SEST were equally difficult when I first used them in the later 80s, and this continued until they were replaced by newer systems, such as is now being done at Mopra.”

  27. Sept 2005 Old replaced by new

  28. True to form… …a mm receiver brings the rain

  29. Thanks • John Whiteoak • Mal Sinclair • Graham Moorey

  30. Questions??

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