Millimetre wavelength imaging publications

By December 10th, 2010

The following publications detail the work involved in the development of CSIRO’s Radio astronomy amplifiers using millimetre wavelength imaging.

Patents

Archer JW, Sevimli O, James G, 2009, ‘Real-time, cross-correlating millimetre-wave imaging system’, Publication Number US 2009/0079619 A1.

Archer JW, Sevimli O, James G, 2008, ‘Real-time, cross-correlating millimetre-wave imaging system using dual pill-box antennas’, US Patent Number 7,385,552 B2.

Batchelor RA, Archer JW, 1998, ‘Bidirectional Amplifier’, US Patent Number 5,821,813 – AU Patent Number 678076 – Taiwan Patent Number 77067.

Millimetre-wave MMICs and MMIC-based systems

Dyadyuk V, Archer JW, Stokes L, 2008, ‘W-band GaAs Schottky diode MMIC mixers for multi-gigabit wireless communications’, In: Advances In Broadband Communications and Networks, Agbinya JI, Sevimli O, Lal S, Selvadurai S, Al-Jumaily A, Li Y, Reisenfeld S, Rivers Publishers, Denmark, 4.

Archer JW, Tello J, 2007, ‘A 180-196 GHz Image-Reject Schottky-Diode MMIC Mixer’, Microwave and Optical Technology Letters, 49: 2319-2322.

Dyadyuk V, Bunton JD, Pathikulangara J, Kendall R, Sevimli O, Stokes L, Abbott DA, 2007, ‘A Multigigabit Millimeter-Wave Communication System With Improved Spectral Efficiency’, IEEE Transactions on MTT, 55: 2813-2821.

Archer JW, 2006, ‘A 80-100 GHz Image-reject Passive-HEMT Mixer’, Microwave and Optical Technology Letters, 48: 2429-2433.

Archer JW, Shen MG, 2006, ‘176-190 GHz Transmitter Module using Indium Phosphide and Gallium Arsenide MMICs’, Microwave and Optical Technology Letters, 48: 338-341.

Sevimli O, Dyadyuk V, Abbott D, Stokes L, Smith SL, Archer JW, Shen M, Kendall R, Tello J, 2005, ‘Multi-gigabit Wireless Test Bed at Millimetre Waves’, In: Proc. IEEE/ACES International Conference on Wireless Communications and Applied Computational Electromagnetics, Honolulu, HI, pp.432-435, 3-7.

Archer JW, Shen MG, 2004, ‘176-200 GHz Receiver Module using Indium Phosphide and Gallium Arsenide MMICs’, Microwave and Optical Technology Letters, 43: 458-462.

Archer JW, Shen MG, 2004, ‘W-band Transmitter Module using Gallium Arsenide MMICs’, Microwave and Optical Technology Letters, 42: 210-213.

Archer JW, Shen MG, 2004, ‘W-band Receiver Module using Indium Phosphide and Gallium Arsenide MMICs’, Microwave and Optical Technology Letters, 42: 92-95.

Dyadyuk V, Abbott D, Archer JW, Sevimli O, Stokes L, 2004, ‘A W-band High Data-rate Point-to-point Link’, In: Proc. Sixth Topical Symposium on Millimetre-waves 2004, Yokosuka, Japan, pp.26-27.

Moorey G, Archer JW, Gough RG, Graves GR, Roberts P, Bowne M, Kanoniuk H, 2004, ‘MMICs for the Australia Telescope Millimetre-Wave Receiver System’, In: Proc. Gallium Arsenide and other Compound Semiconductor Symposium 2004, Amsterdam, Netherlands, pp.11-15.

Archer JW, Lai R, Gough RG, 2001, ‘Ultra-low-noise Indium Phosphide MMIC Amplifiers for 85-115 GHz’, IEEE Trans. on MTT, 49: 2080-2085.

Archer JW, Lai R, Grundbacher R, Barksy M, Tsai R, Reid P, 2001, ‘An Indium Phosphide MMIC Amplifier for 180-205 GHz’, IEEE Microwave and Wireless Components Letters, 11: 4-6.

Gough RG, Kanoniuk HP, Sinlcair MW, Archer JW, Mahon SJ, 2001, ‘Indium Phosphide Monolithic Microwave Integrated Circuits for Millimetre-wave Receiver Systems’, In: Proc. 2001 Asia Pacific Radio Science Conference, Chuo University, Tokyo, Japan.

Gough RG, Sinclair MW, 2001, ‘Low-noise Indium Phosphide Monolithic Microwave Integrated Circuit Amplifiers for Radio-astronomy’, E Aust Monitor Magazine, pp.28-31.

Archer JW, Dadello A, 2000, ‘Ultra-wideband, High-gain GaAs and InP MMIC Amplifiers’, In: Proc. 2000 Asia Pacific Microwave Conference, Sydney, Australia.

Archer JW, Lai R, 2000, ‘Ultra-low-noise InP MMIC Amplifiers for 85-115 GHz’, In: Proc. 2000 Asia Pacific Microwave Conference, Sydney, Australia.

Archer JW, Sinclair MW, Gough RG, Mahon SJ, Roberts P, Sevimli O, 2000, ‘Millimetre-wave Integrated Circuits for Radio-astronomy and Telecommunications’, In: Proc. 2000 Australian Workshop on Applications of Radio Science, Melbourne, Australia.

Gough RG, Sinclair MW, 2000, ‘Low-noise Indium Phosphide Monolithic Microwave Integrated Circuit Amplifiers for Radio-astronomy’, In: Proc. 2000 Asia Pacific Microwave Conference, Sydney, Australia.

Sevimli O, Archer JW, 2000, ‘InP-HEMT-based Monolithic Oscillators at 100 GHz’, In: Proc. 2000 Asia Pacific Microwave Conference, Sydney, Australia.

Sevimli O, Archer JW, 2000, ‘InP-based Wide-band 50 GHz Bi-directional Amplifier’, In: Proc. 2000 Topical Symposium on Millimetre-waves, Yokosuka, Kanagawa, Japan, Conference Digest, pp.233-236.

Archer JW, Sevimli O, Batchelor RA, 1999, ‘Bi-directional Amplifiers for Half-duplex Transceivers’, In: Proc. 21st IEEE GaAs IC Symposium, Monterey, California, USA, Conference Digest, pp.251-254.

Sevimli O, Archer JW, 1999, ‘An 80-120 GHz Sub-harmonically Pumped Image-reject Integrated Circuit Mixer’, In: Proc. 29th European Microwave Conference, Munich, Germany, Conference Digest, 2: 101-104.

Millimetre-wave imaging

Timms GP, Hellicar AD, Bunton JD, Brothers ML, Archer JW, 2008, ‘190 GHz Millimetre-wave Imaging using MMIC-based Heterodyne Receivers’, In: Advances In Broadband Communications and Networks, Agbinya JI, Sevimli O, Lal S, Selvadurai S, Al-Jumaily A, Li Y, Reisenfeld S, Rivers Publishers, Denmark, 3.

Brothers M, Timms G, Bunton J, Archer JW, Tello J, Rosolen G, Li Y, Hellicar A, 2007, ‘A 190 GHz Active Millimetre-wave Imager’, In: Proc. SPIE Symposium Passive Millimeter-Wave Imaging Technology X, Orlando, Florida, 6548.

Li Y, Archer JW, Rosolen GR, Hay SG, Timms GP, Guo YJ, 2007, ‘Fringe Management for a T-shaped Millimetre-wave Imaging System’, IEEE Trans. on MTT, 55: 1246-1254.

Li Y, Timms G, Archer JW, Rosolen G, Tello J, Brothers M, Hellicar A, Guo YJ, 2007, ‘Passive mm-wave Imaging with Two Scanning Fan Beams’, In: Proc. SPIE Symposium Passive Millimeter-Wave Imaging Technology X, Orlando, Florida.

Hay SG, Archer JW, Timms GP, Smith SL, 2005, ‘A Beam-Scanning Dual-Polarized Fan-Beam Antenna Suitable for Millimetre Wavelengths’, IEEE Transactions on Antennas and Propagation, 53: 2516-2525.

Timms GP, Smith SL, Archer JW, Hay SG, 2005, ‘Effect Of Subreflector And Wall Thickness On The Performance Of A Scanning Pillbox Antenna’, In: Proc. 9the Australian Symposium on Antennas, Sydney, Australia.

ATCA millimetre-wave receiving system

Moorey G, Gough R, Graves G, Leach M, Sinclair M, Bolton R, Bowen M, Kanoniuk H, Reilly L, Jackson S, 2002, ‘The Australia Telescope Millimetre-wave Receiver System’, In: Proc. 2002 Australian Workshop on Applications of Radio Science, Leura, NSW.

Sinclair MW, Gough RG, Graves GR, Carrad GJ, Leach M, Bolton RJ, Sykes PB, Reilly L, 2001, ‘Millimetre-wave Receiver Systems for the Australia Telescope’, In: Proc. 2001 Asia Pacific Radio Science Conference, Chuo University, Tokyo, Japan.

Subraahmanyan R, Kesteven MJ, Sinclair MW, Gough RG, Graves GR, Leach M, 2001, ‘The Australia Telescope Millimetre-wave Upgrade’, In: Proc. 2001 Asia Pacific Radio Science Conference, Chuo University, Tokyo, Japan.

Hall PJ, Brooks JW, Sinclair MW, Wilson WE, Kesteven MJ, 1997, ‘The Australia Telescope Millimetre-wave Upgrade’, In: Proc. 1997 Australian Workshop on Applications of Radio Science.

Other publications

Keeping S, 2002, ‘Fast Semiconductors Probe Deep Space’, Australian Electronics Engineering, May, pp.16-20. (see also Editorial in this Issue).

Rehn A, 2002, ‘New Chip has Telescope Really Cooking on Gas’, The Weekend Australian, 23 February 2002.

Price Waterhouse Coopers, 2002, ‘Semiconductor News’, Tech Watch, 12: 6.

SpaceDaily.com, 2002, ‘TRW Teams-up with Australia’s CSIRO to Speed up the Chips’, 7 January 2002.

Silicon Strategies, 2001, ‘TRW Develops GaAs and InP Chips for Powerful Telescope in Australia’, 18 December 2001.

Space Flight Now, 2001, ‘New Australian Telescope “Eyes” Look at Exploded Star’, 19 November 2001.

Journal of Aerospace and Defence Industry News, 1999, ‘TRW to Produce Advanced Microcircuits for Australian Science Group’, 29 June 1999.