PromOptica - Electromagnetic radiation sensors
Friday, 22 April 2022 -
09:00
Monday, 18 April 2022
Tuesday, 19 April 2022
Wednesday, 20 April 2022
Thursday, 21 April 2022
Friday, 22 April 2022
09:30
Welcome
Welcome
09:30 - 09:45
09:45
History and the state-of-the-art of the detection
-
Vermeiren
(
CAELESTE
)
History and the state-of-the-art of the detection
Vermeiren
(
CAELESTE
)
09:45 - 10:30
We will make a fast sweep over all different electro-magnetic wavelengths ranges and high energetic particles. Historically people have been lucky that the mainstream material (silicon) could be used for the detection of visible light and that the CCD technology was capable of making U/VLSI circuitry long before the maturity of equivalent CMOS circuits. Nowadays CMOS has overtaken the CCD technology due to its availability and uniformity. Not all wavelengths can be detected easily with Silicon; sometimes trade-off have to be accepted for a good detection or additional detection materials need to be integrated. Also the environment, where the sensors are used will influence the design and the performance.
10:30
Calibration of MIRI on-board JWST
-
Argyriou
(
KULeuven
)
Calibration of MIRI on-board JWST
Argyriou
(
KULeuven
)
10:30 - 11:15
The James Webb Space Telescope (JWST) is humanity's latest and greatest attempt to study the universe in the near- and mid-infrared. So far commissioning of JWST has shown much promise, with the near-infrared instruments undergoing their planned activities already, whilst the mid-infrared instrument MIRI is still cooling down to its final temperature of 6 degrees Kelvin. In this talk, I will focus on the calibration of the JWST/MIRI instrument. I will show how our understanding of the Si:As IBC detectors has improved drastically over the last 5 years, and show how existing challenges still impact the absolute flux calibration of MIRI measurements. I will also discuss how a re-design of the MIRI detectors and focal plane electronics could boost the performance of the next generation mid-infrared instrument.
11:15
Hydrogen Lyman-Alpha detectors using image intensifiers (EUI + METIS – Solar Orbiter)
-
Schühle
(
MPS
)
Hydrogen Lyman-Alpha detectors using image intensifiers (EUI + METIS – Solar Orbiter)
Schühle
(
MPS
)
11:15 - 12:00
The Solar Orbiter scientific instrumentation has six remote sensing telescopes with ten imaging detector systems (i. e., cameras). With one exception, they are using quite newly developed active pixel sensors for detecting visible and extreme ultraviolet radiation. Two instruments, however, are made for detecting hydrogen Lyman-Alpha radiation and these detectors are using multi-channel plate intensifiers, combined with active pixel sensors. I will describe two detector systems for Lyman-Alpha cameras that have been developed for the Extreme-Ultraviolet Imager (EUI) and for the coronagraph Metis which use a common design with image intensifiers. I will discuss the design specifications and the imaging performance characteristics measured on ground and in space.
12:00
Lunch buffet
Lunch buffet
12:00 - 13:00
13:00
Visit B.RCLab, DeMeLab and BRAMS
Visit B.RCLab, DeMeLab and BRAMS
13:00 - 15:00
Visit of the B.RCLab (BIRA-IASB) and DeMeLab (ROB) laboratories specialized in detector characterization and radiometry. Presentation of the BRAMS project at Spacepole site.