Mr. André J. van Es Profile

André J. van Es

Sr. Project Manager SKA Low

SPIE Involvement:

Author

Publications (6)

Proceedings Article | 11 September 2024 Presentation + Paper

Construction update for the Square Kilometre Array Observatory

Gerhard Swart, Philip Diamond, Lewis Ball, Simon Berry, Robert Braun, Andrea Casson, Tracy Cheetham, Antonio Chrysostomou, Peter Dewdney, Robert Laing, Maria Grazia Labate, Ben Lewis, Lindsay Magnus, Joseph McMullin, Sarah Pearce, Nick Rees, Antony Schinckel, Luca Stringhetti, Andre van Es

Proceedings Volume 13094, 130940L (2024) https://doi.org/10.1117/12.3021248

KEYWORDS: Telescopes, Observatories, Signal processing, Design, Pulsars, Antennas, Software development, Data processing

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Proceedings Article | 29 August 2022 Presentation + Paper

The Square Kilometre Array project update

J. McMullin, P. Diamond, M. Caiazzo, A. Casson, T. Cheetham, P. Dewdney, R. Laing, B. Lewis, A. Schinckel, L. Stringhetti, N. Rees, A. van Es, M. Labate, G. Swart, Lewis Ball, S. Berry, R. Braun, A. Chrysostomou, L. Magnus, S. Pearce

Proceedings Volume 12182, 121820Q (2022) https://doi.org/10.1117/12.2642184

KEYWORDS: Observatories, Optical instrument design, Telescopes, Prototyping, Signal processing, Antennas, Astronomical telescopes, Radio telescopes, Interferometry, Radio astronomy

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SPIE Journal Paper | 20 December 2021

Engineering Development Array 2: design, performance, and lessons from an SKA-Low prototype station

Randall Wayth, Marcin Sokolowski, Jess Broderick, Steven J. Tingay, Raunaq Bhushan, Tom Booler, Riccardo Chiello, David Davidson, David Emrich, Budi Juswardy, David Kenney, Giulia Macario, Alessio Magro, Andrea Mattana, David Minchin, Jader Monari, Andrew McPhail, Federico Perini, Giuseppe Pupillo, Marco Schiaffino, Ravi Subrahmanyan, Andre van Es, Mia Walker, Mark Waterson

JATIS, Vol. 8, Issue 01, 011010, (December 2021) https://doi.org/10.1117/12.10.1117/1.JATIS.8.1.011010

KEYWORDS: Antennas, Calibration, Prototyping, Finite element methods, Polarization, Receivers, Temperature metrology, Sun, Phased arrays, Interferometers

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Proceedings Article | 13 December 2020 Presentation + Paper

The Square Kilometre Array project

J. McMullin, P. Diamond, A. McPherson, R. Laing, P. Dewdney, A. Casson, L. Stringhetti, N. Rees, T. Stevenson, M. Lilley, A. van Es, M. G. Labate, G. Swart, A. Schinckel, T. Cheetham, M. Caiazzo, M. Austin, L. Ball, S. Berry, R. Braun, A. Chrysostomou

Proceedings Volume 11445, 1144512 (2020) https://doi.org/10.1117/12.2565117

KEYWORDS: Observatories, Antennas, Radio telescopes, Interferometry, Chemical elements, Radio astronomy, Physics, Chemistry, Prototyping

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Proceedings Article | 13 December 2020 Poster + Presentation + Paper

A prototype model for evaluating SKA-LOW station calibration

A. J. J. van Es, M. G. Labate, M. F. Waterson, J. Monari, P. Bolli, D. Davidson, R. Wayth, M. Sokolowski, P. Di Ninni, G. Pupillo, G. Macario, G. Virone, L. Ciorba, F. Paonessa

Proceedings Volume 11445, 1144589 (2020) https://doi.org/10.1117/12.2562391

KEYWORDS: Antennas, Calibration, Telescopes, Prototyping, Phased arrays, Polarization, Device simulation, Astronomy, Sun, Galactic astronomy

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The Square Kilometre Array telescope at low-frequency (SKA-Low) will be a phased array telescope supporting a wide range of science cases covering the frequency band 50 - 350 MHz, while at the same time asking for high sensitivity and excellent characteristics. These extremely challenging requirements resulted in a design using 512 groups of 256 log periodic dual polarized antennas each (where each group is called “station”), for a total of 131072 antennas. The 512 stations are randomly distributed mostly within a dense area around the centre of the SKA-Low, and then in 3 arms having 16 station clusters each. In preparation for the SKA Phase 1 (SKA1) System Critical Design Review (CDR), prototype stations were deployed at the Murchison Radio-astronomy Observatory (MRO) site (Western Australia) near the Murchison Widefield Array (MWA) radio telescope. The project involved multiple parties in an International collaboration building and testing different prototypes of the SKA1-Low station near the actual site. This resulted in both organisational and logistic challenges typical of a deployment of the actual telescope. The test set-up involved a phased build-up of the complex station of log-periodic antennas, by starting from the deployment of 48 antennas and related station signal processing (called AAVS1.5, where AAVS stands for Aperture Array Verification System), followed by expansion to a full station (AAVS2.0). As reference a station with dipole antennas EDA2 (EDA: Engineering Development Array) was deployed. This test set-up was used for an extensive test and evaluation programme. All test antenna configurations were simulated in detail by electromagnetic (EM) models, and the prediction of the models was further verified by appropriate tests with a drone-based radio frequency source. Astronomical observations on Sun and galaxy transit were performed with calibrated stations of both EDA2, AAVS1.5 and AAVS2.0. All 3 configurations were calibrated. EM modelling and calibration results for the full station AAVS2.0 and EM verification for the AAVS1.5 station are presented. The comparisons between the behaviour of the log-periodic antennas and the dipoles have advanced our understanding the calibration quality and the technological maturity of the future SKA1-Low array.

Proceedings Article | 13 July 2018 Presentation + Paper

Square Kilometer Array project status report

Alistair McPherson, Joe McMullin, Tim Stevenson, Peter Dewdney, Andrea Casson, Luca Stringhetti, Miles Deegan, Peter Hekman, Martin Austin, Mark Harman, Phillip Gibbs, Andre Van Es, Maria-Grazia Labate, Gerhard Swart, Marco Ciaizzo, Daniel Hayden, Wallace Turner

Proceedings Volume 10700, 107000Y (2018) https://doi.org/10.1117/12.2312438

KEYWORDS: Telescopes, Pulsars, Signal processing, Antennas, Data processing, Space telescopes, Control systems, Calibration, Observatories, Data archive systems

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