Summary/Reader Response draft #1
The article “Why stars look spiky in images from the James Webb Space Telescope'' by Griggs (2022) discussed the causes of distortion in the images produced by the James Webb Space Telescope. These distortions are determined by the telescope being used, and its design and hardware. The JWST is a reflecting telescope that uses light from the universe to form images using mirrors and imaging instruments. The shape of the mirrors affects how lights can diffract around the mirror’s edge. The JWST consists of primary and secondary mirrors, where the primary hexagonal mirrors contribute to the six diffraction spikes in the produced image, and the secondary mirrors are held by three struts that are 25 feet away from the primary mirrors. These struts also contribute to the distortion due to how light diffracts off the struts. There are mainly two instruments that produce images from the telescope. The Near Infrared Camera (NIRCam) uses near infrared lights to capture the image while the Mid - Infrared Instrument (MIRI) uses mid infrared lights. In near-infrared light, the diffraction spikes are prominent as lights at these wavelengths are bright, which enables the stars in images to be more distinct. Images produced by mid infrared lights have lesser distortion, which produces images that are less clear. (Webb Space Telescope, 2022)
With the new cameras of the JWST, scientists and astronomers are able to have clearer images to study about the universe. Moreover, the new primary mirrors of the JWST enables scientists and astronomers to get larger and clearer and learn more about the big bang.
The mirrors of the JWST have been improved over its predecessor. The primary mirrors of the JWST 6.5m. (NASA, nd) It is made out of 18 smaller hexagonal mirrors with diameter of 1.32m and they are made of beryllium. They are also coated with layers of highly reflective gold. (Seery, 2022) Weighing about 20Kg, the primary mirrors are both lightweight and strong. In comparison, the primary mirrors of Hubbles’ weights about 828Kg. (NASA, nd). Moreover, Webb’s primary mirror has a light collecting area that is 6.25 times larger than that of Hubble Space Telescope’s (HST) primary mirror.
The NIRCam is an instrument that captures images of lights at wavelengths 0.6μm to 5μm. It was built by the University of Arizona and Lockheed Martin.(NASA, nd), the NIRCam consists of two similar cameras that are mounted back to back. Both cameras can be used simultaneously in survey mode to cover more area for imaging. The NIRCam is used to detect “first light-emitting objects that formed after the big bang.” (Seery, 2022) It is also fitted with a coronagraph to capture “images of debris disks, Kuiper Belts, and planets around nearby stars”. The MIRI were built between the European Consortium and the Jet Propulsion Laboratory.(ESA, nd) It captures images of lights at wavelengths 5μm to 28μm. It is used to study formation of heavy elements, the genesis and evolution of galaxies and old stellar populations. Moreover, it is able to capture images in regions that are blocked by dust. In contrast, the imaging tools in the HST can only take images in wavelengths of 115–1700 nanometers. (NASA, nd) The JWST will allow astronomers to view images produced by lights in higher wavelengths.
The downside to the JWST is that it is inaccessible to be serviced. The JWST is located about 1.5million km away from Earth. At the current moment, it is out of reach of any manned vehicles which are being planned by NASA for the next decade. (NASA, nd) The HST is just 570km away from Earth and it is easily accessible for NASA to service or repair the telescope when needed. However, research and studies have been conducted prior to JWST’s launch to find out if servicing the telescope was worth it or not. These studies came to a conclusion that perks of servicing does not affect the mission intricacy, mass and cost that are needed to make the JWST serviceable.(NASA, nd)
All in all, JWST is not a new telescope to replace its predecessor. Rather, it is to complement the HST. The potential for the JWST to produce clearer images at higher wavelengths would allow scientists and astronomers to study more about the universe. However, the telescope is currently unserviceable due to it being located so far away from earth that even there are no current plans for NASA to service it.
References
Griggs, M. B. (2022) Why stars look spiky in images from the James Webb Space Telescope.
https://www.theverge.com/23220109/james-webb-space-telescope-stars-diffraction-spike
Seery, B. D. (2022). James Webb Space Telescope (JWST). https://www.accessscience.com/content/james-webb-space-telescope-jwst/358207
NASA (nd). Observatory - Hubble vs. Webb
https://www.nasa.gov/content/goddard/hubble-vs-webb-on-the-shoulders-of-a-giant
NASA (nd). Comparison: Webb vs Hubble Telescope - Webb/NASA
https://www.jwst.nasa.gov/content/about/comparisonWebbVsHubble.html
Rieke, M. (2019). JWST advanced deep extragalactic survey: NIRCam imaging to z > 10
https://doi.org/10.1017/S1743921319008950
Greene, T., Beichman, C., Gully-Santiago, M., Jaffe, D., Kelly, D., Krist, J., Reiki, M., Smith, E, H. (nd) NIRCam: Development and Testing of the JWST Near-Infrared Camera
ESA (nd), MIRI — the Mid-InfraRed Instrument
https://esawebb.org/about/instruments/miri/
Webb Space Telescope (2021). Scientific Instruments on the James Webb Space Telescope: Mid-Infrared Instrument (MIRI)
https://webbtelescope.org/contents/media/images/01FA0SZA5HPXKRKH8Y6PKB10V1
NASA (nd). Hubble Space Telescope Observatory - Instruments
https://www.nasa.gov/content/goddard/hubble-space-telescope-science-instruments
NASA (nd). JWST Frequently Asked Questions
https://jwst.nasa.gov/content/about/faqs/faq.html#serviceable
NASA (nd). Near Infrared Camera (NIRCam)
https://jwst.nasa.gov/content/observatory/instruments/nircam.html
NASA (nd). HUBBLE SPACE TELESCOPE STATS
https://hubblesite.org/mission-and-telescope/hubble-stats
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