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Scheduling Webb’s Science


In the lead-up to the release of Webb’s first full-color images and spectroscopic data on July 12, the Webb team is now in the last phase of commissioning the science instruments. The first two instrument modes, NIRCam imaging and NIRISS imaging, have been declared ready for science; watch the “Where is Webb” page as the team works their way through the other 15 instrument modes.

After commissioning is finished, the fun – and discoveries – will start: implementing the hundreds of peer-reviewed science programs that have been selected for Webb’s first year. The area on the sky that Webb can see at any given time is called the field of regard. Deciding which observations to make on which day is a complicated process designed to optimize observational efficiency and manage the observatory’s resources. We asked Christine Chen, science policies group lead at the Space Telescope Science Institute (STScI), to tell us how Webb’s schedule comes together.

“Webb will soon transition from commissioning to regular operations when Webb’s time will be devoted to scientific observations.

“Webb’s first year of observations (Cycle 1) has already been selected. There are three types of scientific programs planned: General Observer (GO), Guaranteed Time Observer (GTO), and Director’s Discretionary Early Release Science (DD-ERS). The GO and DD-ERS programs include scientists from all over the world whose programs were selected in a dual anonymous peer review process. The GTO programs are led by scientists who made key contributions to the development of the observatory.

“All of the observations in approved Cycle 1 programs are available for scheduling at the beginning of regular operations. However, the DD-ERS observations have been given priority during the first five months because the DD-ERS programs are designed to help the scientific community understand Webb’s performance for typical scientific observations as soon as possible.

“Webb’s Long Range Planning Group (LRPG) has created a 12-month+ Observing Plan, including all of the approved observations, with the goal of creating the most efficient plan. Even though a Webb Observing Cycle is defined as a 12-month period, more than one year’s worth of observations have been approved for Cycle 1. This over-subscription will enable a smooth transition between cycles as well as provide a repository of flight-ready observations that can be moved earlier, if a window opens up. At the current time, before the start of Cycle 1, the Observing Plan is not yet completely filled. This allows the schedulers to accommodate late-breaking Targets of Opportunity (ToOs) and Director’s Discretionary (DD) programs. ToOs and DDs typically include ’unplanned for‘ events such as interstellar comets, gravitational wave sources, and supernovae.

“During regular operations, the Short Term Scheduling Group (STSG) will create detailed weekly schedules to be executed by the observatory during the following week. These Short Term Schedules will take into account several factors, including observing constraints, data volume limits for the onboard data recorder, momentum buildup on the observatory’s reaction wheels, etc. At the beginning of each week, the Flight Operations Team will uplink the week’s Short Term Schedule to Webb. At the end of each week, the LRPG will update the Observing Plan to reflect the actual programs that were executed, and to identify priorities for the following week. In this way, the LRPG and STSG work synergistically together throughout the observing cycle to maximize the scientific return from the observatory.”

— Christine Chen, Webb science policies group lead, STScI,
and David Adler, Long Range Planning Group lead, STScI
 
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Latest update

One of the James Webb Space Telescope’s four primary scientific instruments, known as the Near-Infrared Imager and Slitless Spectrograph instrument (NIRISS) has concluded its postlaunch preparations and is now ready for science.

The last NIRISS mode to be checked off before the instrument was declared ready to begin scientific operations was the Single Object Slitless Spectroscopy (SOSS) capability. The heart of the SOSS mode is a specialized prism assembly that disperses the light of a cosmic source to create three distinctive spectra (rainbows), revealing the hues of more than 2,000 infrared colors collected simultaneously in a single observation. This mode will be specifically used to probe the atmospheres of transiting exoplanets, i.e., planets that happen to eclipse their star periodically, momentarily dimming the star’s brightness for a period of time. By comparing the spectra collected during and before or after a transit event with great precision, one can determine not only whether or not the exoplanet has an atmosphere, but also what atoms and molecules are in it.

“I’m so excited and thrilled to think that we’ve finally reached the end of this two-decade-long journey of Canada’s contribution to the mission. All four NIRISS modes are not only ready, but the instrument as a whole is performing significantly better than we predicted. I am pinching myself at the thought that we are just days away from the start of science operations, and in particular from NIRISS probing its first exoplanet atmospheres,” said René Doyon, principal investigator for NIRISS, as well as Webb’s Fine Guidance Sensor, at the University of Montreal.



The Image Behind the Spectrum. This is a test detector image from the NIRISS instrument operated in its single-object slitless spectroscopy (SOSS) mode while pointing at a bright star. Each color seen in the image corresponds to a specific infrared wavelength between 0.6 and 2.8 microns. The black lines seen on the spectra are the telltale signature of hydrogen atoms present in the star. NIRISS is a contribution from the Canadian Space Agency (CSA) to the Webb project that provides unique observational capabilities that complement its other onboard instruments. Credit: NASA, CSA, and NIRISS team/Loic Albert, University of Montreal


With NIRISS postlaunch commissioning activities concluded, the Webb team will continue to focus on checking off the remaining five modes on its other instruments. NASA’s James Webb Space Telescope, a partnership with ESA (European Space Agency) and CSA, will release its first full-color images and spectroscopic data on July 12, 2022.
 
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"Pacifism is a shifty doctrine under which a man accepts the benefits of the social group without being willing to pay - and claims a halo for his dishonesty."
~Robert A. Heinlein
 
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Another Webb Telescope Instrument Gets the “Go for Science”

The second of NASA’s James Webb Space Telescope’s four primary scientific instruments, known as the Mid-Infrared instrument (MIRI), has concluded its postlaunch preparations and is now ready for science.

The last MIRI mode to be checked off was its coronagraphic imaging capability, which uses two different styles of masks to intentionally block starlight from hitting its sensors when attempting to make observations of the star’s orbiting planets. These customized masks allow for scientists to directly detect exoplanets and study dust disks around their host stars in a way that’s never been done before.

Along with Webb’s three other instruments, MIRI initially cooled off in the shade of Webb’s tennis-court-size sunshield to about 90 kelvins (minus 298 degrees Fahrenheit, or minus 183 degrees Celsius). To perform its intended science meant dropping to less than 7 kelvins — just a few degrees above the lowest temperature matter can reach — by using an electrically powered cryocooler. These extreme operating temperatures allow for MIRI to deliver mid-infrared images and spectra with an unprecedented combination of sharpness and sensitivity.

“We are thrilled that MIRI is now a functioning, state-of-the-art instrument with performances across all its capabilities better than expected. Our multinational commissioning team has done a fantastic job getting MIRI ready in the space of just a few weeks. Now we celebrate all the people, scientists, engineers, managers, national agencies, ESA, and NASA, who have made this instrument a reality as MIRI begins to explore the infrared universe in ways and to depths never achieved before,” said Gillian Wright, MIRI European principal investigator at the UK Astronomy Technology Centre, and George Rieke, MIRI science lead at the University of Arizona. MIRI was developed as a partnership between NASA and ESA (European Space Agency), with NASA’s Jet Propulsion Laboratory leading the U.S. efforts and a multi-national consortium of European astronomical institutes contributing for ESA.

With NIRISS and MIRI postlaunch commissioning activities concluded, the Webb team will continue to focus on checking off the remaining two modes on its other instruments. NASA’s James Webb Space Telescope, a partnership with ESA (European Space Agency) and CSA, will release its first full-color images and spectroscopic data on July 12, 2022.
 
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How To See Webb’s First Images!

The public release of Webb’s first images and spectra is July 12 – now less than two weeks away! The Webb team has confirmed that that 15 out of 17 instrument modes are ready for science, with just two more still to go. As we near the end of commissioning, we wanted to let you know where you can see the first Webb science data and how to participate in the celebration of Webb science! Here are all the ways you can #UnfoldTheUniverse with Webb:

Countdown: How many minutes left? The official countdown is at https://webb.nasa.gov/content/...aunch/countdown.html

Watch: See the images revealed in real-time and hear from experts about the exciting results on NASA TV at 10:30am Eastern on July 12: https://www.nasa.gov/nasalive

View: Just interested in the amazing imagery? You will be able to find the first images and spectra at: https://www.nasa.gov/webbfirstimages

Participate: Attend, virtually or in-person, one of hundreds of official Webb Space Telescope Community Events happening in the next few months! Find an event near you at: https://webbtelescope.org/news/first-images/events

Socialize: Follow along on Twitter, Facebook, and Instagram with @NASA and @NASAWebb using #UnfoldTheUniverse!

Download: High-resolution downloads and supplemental content will be available for download at: https://webbtelescope.org/news/first-images

Ask: On July 13, ask your questions about these first images and spectra using #UnfoldtheUniverse, and you could see them answered on NASA Science Live at: https://www.nasa.gov/nasasciencelive

We look forward to celebrating the official kickoff of Webb science with you soon!
 
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I've been checking the Webb site just about every day, watching the progress.
This morning there's only one instrument left to be commissioned.
Can't wait to start seeing images and reading about new discoveries.



"If Gun Control worked, Chicago would look like Mayberry, not Thunderdome" - Cam Edwards
 
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Glad this thread was bumped up.




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Latest Blog

(Sorry about the large image; posting from iPad and I don’t know how to resize).

We are less than one week away from the release of the first full-color images from NASA’s James Webb Space Telescope, but how does the observatory find and lock onto its targets? Webb’s Fine Guidance Sensor (FGS) – developed by the Canadian Space Agency – was designed with this particular question in mind. Recently it captured a view of stars and galaxies that provides a tantalizing glimpse at what the telescope’s science instruments will reveal in the coming weeks, months, and years.

FGS has always been capable of capturing imagery, but its primary purpose is to enable accurate science measurements and imaging with precision pointing. When it does capture imagery, the imagery is typically not kept: Given the limited communications bandwidth between L2 and Earth, Webb only sends data from up to two science instruments at a time. But during a week-long stability test in May, it occurred to the team that they could keep the imagery that was being captured because there was available data transfer bandwidth.

The resulting engineering test image has some rough-around-the-edges qualities to it. It was not optimized to be a science observation; rather, the data was taken to test how well the telescope could stay locked onto a target, but it does hint at the power of the telescope. It carries a few hallmarks of the views Webb has produced during its postlaunch preparations. Bright stars stand out with their six, long, sharply defined diffraction spikes – an effect due to Webb’s six-sided mirror segments. Beyond the stars, galaxies fill nearly the entire background.

The result – using 72 exposures over 32 hours – is among the deepest images of the universe ever taken, according to Webb scientists. When FGS’ aperture is open, it is not using color filters like the other science instruments – meaning it is impossible to study the age of the galaxies in this image with the rigor needed for scientific analysis. But even when capturing unplanned imagery during a test, FGS is capable of producing stunning views of the cosmos.



This Fine Guidance Sensor test image was acquired in parallel with NIRCam imaging of the star HD147980 over a period of eight days at the beginning of May. This engineering image represents a total of 32 hours of exposure time at several overlapping pointings of the Guider 2 channel. The observations were not optimized for detection of faint objects, but nevertheless the image captures extremely faint objects and is, for now, the deepest image of the infrared sky. The unfiltered wavelength response of the guider, from 0.6 to 5 micrometers, helps provide this extreme sensitivity. The image is mono-chromatic and is displayed in false color with white-yellow-orange-red representing the progression from brightest to dimmest. The bright star (at 9.3 magnitude) on the right hand edge is 2MASS 16235798+2826079. There are only a handful of stars in this image – distinguished by their diffraction spikes. The rest of the objects are thousands of faint galaxies, some in the nearby universe, but many, many more in the distant universe. Credit: NASA, CSA, and FGS team.
“With the Webb telescope achieving better-than-expected image quality, early in commissioning we intentionally defocused the guiders by a small amount to help ensure they met their performance requirements. When this image was taken, I was thrilled to clearly see all the detailed structure in these faint galaxies. Given what we now know is possible with deep broad-band guider images, perhaps such images, taken in parallel with other observations where feasible, could prove scientifically useful in the future,” said Neil Rowlands, program scientist for Webb’s Fine Guidance Sensor, at Honeywell Aerospace.

Because this image was not created with a science result in mind, there are a few features that are quite different than the full-resolution images that will be released July 12. Those images will include what will be – for a short time at least – the deepest image of the universe ever captured, as NASA Administrator Bill Nelson announced on June 29.

The FGS image is colored using the same reddish color scheme that has been applied to Webb’s other engineering images throughout commissioning. In addition, there was no “dithering” during these exposures. Dithering is when the telescope repositions slightly between each exposure. In addition, the centers of bright stars appear black because they saturate Webb’s detectors, and the pointing of the telescope didn’t change over the exposures to capture the center from different pixels within the camera’s detectors. The overlapping frames of the different exposures can also be seen at the image’s edges and corners.

In this engineering test, the purpose was to lock onto one star and to test how well Webb could control its “roll” – literally, Webb’s ability to roll to one side like an aircraft in flight. That test was performed successfully – in addition to producing an image that sparks the imagination of scientists who will be analyzing Webb’s science data, said Jane Rigby, Webb’s operations scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland.

“The faintest blobs in this image are exactly the types of faint galaxies that Webb will study in its first year of science operations,” Rigby said.

While Webb’s four science instruments will ultimately reveal the telescope’s new view of the universe, the Fine Guidance Sensor is the one instrument that will be used in every single Webb observation over the course of the mission’s lifetime. FGS has already played a crucial role in aligning Webb’s optics. Now, during the first real science observations made in June and once science operations begin in mid-July, it will guide each Webb observation to its target and maintain the precision necessary for Webb to produce breakthrough discoveries about stars, exoplanets, galaxies, and even moving targets within our solar system.
 
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Another article

A cool thing about that picture—the scale (angular size) is as if you held a grain of sand at arms length and looked to the skies. Mind-boggling to me. I’ve been looking forward to this for years…and I’m not even a space nerd!
 
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Live presentation Linky

I'm at work so I can't watch...anybody else going to watch?
 
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quote:
Originally posted by bcereuss:
Live presentation Linky

I'm at work so I can't watch...anybody else going to watch?


Hell yes!
 
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Get my pies
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"My God...it's full of stars!"


 
Posts: 35168 | Location: Pennsylvania | Registered: November 12, 2007Reply With QuoteReport This Post
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watching it...

first two images are pretty spectacular

the first one was a deep field image very much like the iconic deep field taken by Hubble - the difference being the Hubble image took weeks, the Webb image took hours
 
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Any links to the full res pics?

Very cool.

Eta - here's another link. I believe it's about 100M, so for many of you this will be the first insight into what our world used to be like loading a single image at 56k.....

Link to massive image

This message has been edited. Last edited by: Georgeair,



You only have integrity once. - imprezaguy02

 
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quote:
Originally posted by Georgeair:
Any links to the full res pics?

Very cool.


https://webbtelescope.org/news...ction=First%20Images
 
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Space rock that smashed into NASA's James Webb Space Telescope in May caused more damage than previously thought, report reveals

(More at link)

NASA's new super space telescope suffered more damage than first thought when it was hit by a space rock in May, a new report has revealed.

The $10 billion (£7.4 billion) observatory's primary mirror was permanently altered when it was impacted by the single micrometeorite, NASA has revealed, although it won't affect Webb's ability to take mesmerising images like the first official ones released last week.
 
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https://www.newsweek.com/james...planets-life-1729236


Read this about TRAPPIST-1, Planet system 39 Light years away.


美しい犬
 
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Webb-Hubble cooperation!

“An image of the most distant known star in the universe has been captured by NASA's James Webb Space Telescope.

Named Earendel, after a character in J.R.R. Tolkien's 'Lord of the Rings' prequel 'The Silmarillion', it is almost 28 billion light-years away from Earth.

That is over 10 billion light-years more distant than the next-furthest star astronomers have seen.

At such enormous distances, experts can usually only make out entire galaxies, but a lucky coincidence allowed them to spot Earendel with the Hubble Space Telescope and then observe it again with Webb on July 30.

By comparing the Hubble image with that captured by NASA's new $10 billion (£7.4 billion) super space telescope, experts were able to find the elusive Earendel as a faint red dot below a cluster of distant galaxies.

The star, whose light took 12.9 billion light-years to reach Earth, is so faint that it would be challenging to find without the help of Hubble — which images in visible, ultraviolet light compared to Webb's infrared.

This example of the two telescopes working side-by-side is exactly what NASA had envisioned, despite Webb ultimately being seen as the successor to the famous Hubble.”

DailyMail article:
https://mol.im/a/11076423



Serious about crackers
 
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James Webb snaps new images of 1,000-year-old Crab Nebula supernova

“It is one of the most famous nebulae known to astronomers.

But the Crab Nebula can now be seen like never before thanks to NASA's James Webb Space Telescope.

The remarkable object is the remnant of a stellar explosion that lit up the sky nearly 1,000 years ago — bright enough to be seen on Earth from 6,500 light-years away.

It was visible across the world for 23 days back in 1054.

NASA hopes this latest view of the glowing cosmic cloud – made possible with the help of its $10 billion (£7.4 billion) observatory – will help astronomers unravel its puzzling history. …”

DailyMail article:
https://mol.im/a/12689111

Remarkable photo in article.



Serious about crackers
 
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