Tuesday, January 31, 2023
My Webpage Is Up for Photos That I Took at the 2022 Aerospace Valley Air Show!
I'm over three months late, but just thought I'd end January by letting y'all know that I finally created a webpage containing 60 pictures that I took at last October's Aerospace Valley Air Show in Edwards Air Force Base (AFB), CA! Click on the link below to view the images...which I captured using my Google Pixel 4A phone and Nikon D3300 DSLR camera.
It was so cool to see such aircraft as the F-35 Lightning II (all three U.S. variants from the Air Force, Navy and Marine Corps, that is), F-22 Raptor, SR-71 Blackbird, B-1B Lancer, NASA's now-retired SOFIA flying observatory, and even the full-sized Darkstar movie prop that was used in last year's Oscar nominee for Best Picture (it's so cool typing that), Top Gun: Maverick, in person.
Not sure if I'll drive down to Edwards AFB again this year (especially considering that Google Maps made me take a crappy route on the way home last time, heh), but if I do, I'll be sure to get more pics of F-22s, F-35s and B-1Bs conducting awesome aerial demos above the Mojave Desert! I missed out last year since I was still looking for a parking spot at the Southern California airbase when these aircraft were strutting their stuff in the sky.
It took me about two hours to park my car once I entered Edwards AFB before I got to enjoy the Aerospace Valley Air Show...but oh well. This event was worth it!
LINK: Click here for more photos that I took at the 2022 Aerospace Valley Air Show
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Photos of the Day
Monday, January 30, 2023
Ten Martian Soil Samples Are Ready to be Transported to Earth (if Necessary)...
NASA / JPL - Caltech / MSSS
NASA's Perseverance Rover Completes Mars Sample Depot (News Release)
Ten sample tubes, capturing an amazing variety of Martian geology, have been deposited on Mars’ surface so they could be studied on Earth in the future.
Less than six weeks after it began, construction of the first sample depot on another world is complete. Confirmation that NASA’s Perseverance Mars rover successfully dropped the 10th and final tube planned for the depot was received around 5 p.m. PST (8 p.m. EST) on Sunday, January 29, by mission controllers at the agency’s Jet Propulsion Laboratory in Southern California.
This major milestone involved precision planning and navigation to ensure that the tubes could be safely recovered in the future by the NASA-ESA (European Space Agency) Mars Sample Return campaign, which aims to bring Mars samples to Earth for closer study.
Throughout its science campaigns, the rover has been taking a pair of samples from rocks the mission team deems scientifically significant. One sample from each pair taken so far now sits in the carefully arranged depot in the “Three Forks” region of Jezero Crater.
The depot samples will serve as a backup set while the other half remain inside Perseverance, which would be the primary means to convey samples to a Sample Retrieval Lander as part of the campaign.
Mission scientists believe the igneous and sedimentary rock cores provide an excellent cross section of the geologic processes that took place in Jezero shortly after the crater’s formation almost 4 billion years ago. The rover also deposited an atmospheric sample and what’s called a “witness” tube, which is used to determine if samples being collected might be contaminated with materials that traveled with the rover from Earth.
The titanium tubes were deposited on the surface in an intricate zigzag pattern, with each sample about 15 to 50 feet (5 to 15 meters) apart from one another to ensure that they could be safely recovered. Adding time to the depot-creation process, the team needed to precisely map the location of each 7-inch-long (18.6-centimeter-long) tube and glove (adapter) combination so that the samples could be found even if covered with dust.
The depot is on flat ground near the base of the raised, fan-shaped ancient river delta that formed long ago when a river flowed into a lake there.
“With the Three Forks depot in our rearview mirror, Perseverance is now headed up the delta,” said Rick Welch, Perseverance’s deputy project manager at JPL. “We’ll make our ascent via the ‘Hawksbill Gap’ route we previously explored. Once we pass the geologic unit the science team calls ‘Rocky Top,’ we will be in new territory and begin exploring the Delta Top.”
Next Science Campaign
Passing the Rocky Top outcrop represents the end of the rover’s Delta Front Campaign and the beginning of the rover’s Delta Top Campaign because of the geologic transition that takes place at that level.
“We found that from the base of the delta up to the level where Rocky Top is located, the rocks appear to have been deposited in a lake environment,” said Ken Farley, Perseverance project scientist at Caltech. “And those just above Rocky Top appear to have been created in or at the end of a Martian river flowing into the lake. As we ascend the delta into a river setting, we expect to move into rocks that are composed of larger grains – from sand to large boulders. Those materials likely originated in rocks outside of Jezero, eroded and then washed into the crater.”
One of the first stops the rover will make during the new science campaign is at a location the science team calls the “Curvilinear Unit.” Essentially a Martian sandbar, the unit is made of sediment that eons ago was deposited in a bend in one of Jezero’s inflowing river channels.
The science team believes the Curvilinear Unit will be an excellent location to hunt for intriguing outcrops of sandstone and perhaps mudstone, and to get a glimpse at the geological processes beyond the walls of Jezero Crater.
Source: NASA.Gov
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NASA / JPL - Caltech
Wednesday, January 25, 2023
Astrobotic's Moon Lander Is Ready for Launch!
Astrobotic
Peregrine TVAC Testing Successful, Approved for Flight! (Press Release)
Astrobotic announced today that its Peregrine lunar lander has successfully completed its entire flight acceptance campaign. Peregrine is now ready to be shipped to Cape Canaveral, Florida when Astrobotic’s rocket provider, United Launch Alliance (ULA), gives the green light to receive it.
"Peregrine Mission One's (PM1) flight acceptance campaign was completed on schedule and exceeded expectations. These tests ultimately proved the quality of Peregrine’s design and workmanship over the full assembly and integration campaign. Everyone worked diligently, even through holidays, for this incredible achievement," says Sharad Bhaskaran, Astrobotic’s PM1 Mission Director.
The final hurdle, thermal-vacuum (TVAC) testing, proved that Peregrine can survive and operate in the thermal and vacuum conditions of space. The spacecraft was subjected to extreme hot and cold temperatures in the thermal vacuum chamber to simulate conditions during its mission.
All spacecraft components were functionally tested as well to demonstrate flight-like operations.
Peregrine will be at Astrobotic headquarters in Pittsburgh, Pennsylvania on public display beginning this Thursday, January 26. Visitors can visit the conjoining Moonshot Museum to catch a glimpse of the spacecraft until it is prepped for shipment to Cape Canaveral, Florida for its journey to the Moon.
Source: Astrobotic
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Astrobotic
United Launch Alliance
United Launch Alliance
Tuesday, January 24, 2023
Hubble's Successor Observes Some of the Coldest Molecules in the Universe...
NASA, ESA, CSA and M. Zamani (ESA)
Webb Unveils Dark Side of Pre-stellar Ice Chemistry (News Release - January 23)
If you want to build a habitable planet, ices are a vital ingredient because they are the main source of several key elements — namely carbon, hydrogen, oxygen, nitrogen and sulfur (referred to here as CHONS). These elements are important ingredients in both planetary atmospheres and molecules like sugars, alcohols and simple amino acids.
An international team of astronomers using NASA’s James Webb Space Telescope has obtained an in-depth inventory of the deepest, coldest ices measured to date in a molecular cloud. In addition to simple ices like water, the team was able to identify frozen forms of a wide range of molecules, from carbonyl sulfide, ammonia and methane, to the simplest complex organic molecule, methanol.
(The researchers considered organic molecules to be complex when having six or more atoms.)
This is the most comprehensive census to date of the icy ingredients available to make future generations of stars and planets, before they are heated during the formation of young stars.
“Our results provide insights into the initial, dark chemistry stage of the formation of ice on the interstellar dust grains that will grow into the centimeter-sized pebbles from which planets form in disks,” said Melissa McClure, an astronomer at Leiden Observatory in the Netherlands, who is the principal investigator of the observing program and lead author of the paper describing this result. “These observations open a new window on the formation pathways for the simple and complex molecules that are needed to make the building blocks of life.”
In addition to the identified molecules, the team found evidence for molecules more complex than methanol, and, although they didn't definitively attribute these signals to specific molecules, this proves for the first time that complex molecules form in the icy depths of molecular clouds before stars are born.
“Our identification of complex organic molecules, like methanol and potentially ethanol, also suggests that the many star and planetary systems developing in this particular cloud will inherit molecules in a fairly advanced chemical state,” added Will Rocha, an astronomer at Leiden Observatory who contributed to this discovery. “This could mean that the presence of precursors to prebiotic molecules in planetary systems is a common result of star formation, rather than a unique feature of our own solar system.”
By detecting the sulfur-bearing ice carbonyl sulfide, the researchers were able to estimate the amount of sulfur embedded in icy pre-stellar dust grains for the first time. While the amount measured is larger than previously observed, it is still less than the total amount expected to be present in this cloud, based on its density.
This is true for the other CHONS elements as well. A key challenge for astronomers is understanding where these elements are hiding: in ices, soot-like materials, or rocks.
The amount of CHONS in each type of material determines how much of these elements end up in exoplanet atmospheres and how much in their interiors.
"The fact that we haven't seen all of the CHONS that we expect may indicate that they are locked up in more rocky or sooty materials that we cannot measure,” explained McClure. “This could allow a greater diversity in the bulk composition of terrestrial planets.”
Chemical characterization of the ices was accomplished by studying how starlight from beyond the molecular cloud was absorbed by icy molecules within the cloud at specific infrared wavelengths visible to Webb. This process leaves behind chemical fingerprints known as absorption lines which can be compared with laboratory data to identify which ices (frozen molecules) are present in the molecular cloud.
In this study, the team targeted ices buried in a particularly cold, dense and difficult-to-investigate region of the Chamaeleon I molecular cloud, a region roughly 500 light-years from Earth which is currently in the process of forming dozens of young stars.
“We simply couldn't have observed these ices without Webb,” elaborated Klaus Pontoppidan, Webb project scientist at the Space Telescope Science Institute in Baltimore, Maryland, who was involved in this research. “The ices show up as dips against a continuum of background starlight. In regions that are this cold and dense, much of the light from the background star is blocked, and Webb’s exquisite sensitivity was necessary to detect the starlight and therefore identify the ices in the molecular cloud.”
This research forms part of the Ice Age project, one of Webb's 13 Early Release Science programs. These observations are designed to showcase Webb’s observing capabilities and to allow the astronomical community to learn how to get the best from its instruments.
The Ice Age team has already planned further observations, and hopes to trace out the journey of ices from their formation through to the assemblage of icy comets.
“This is just the first in a series of spectral snapshots that we will obtain to see how the ices evolve from their initial synthesis to the comet-forming regions of protoplanetary disks,” concluded McClure. “This will tell us which mixture of ices — and therefore which elements — can eventually be delivered to the surfaces of terrestrial exoplanets or incorporated into the atmospheres of giant gas or ice planets.”
These results were published in the January 23 issue of Nature Astronomy.
Source: NASA.Gov
Monday, January 23, 2023
Photos of the Day #2: Peregrine's Rocket Is Now in Florida!
ULA
Last Saturday, United Launch Alliance's (ULA) transport vessel R/S Rocketship arrived at the Port Canaveral in Florida...after completing an 8-day voyage that began at ULA's rocket factory in Decatur, Alabama. And yesterday, workers unloaded the Vulcan's core stage booster, its Centaur V upper stage motor and one of the Vulcan's twin payload fairings from Rocketship and transported them to ULA's launch processing facilities at Cape Canaveral Space Force Station about 6 miles away.
According to a tweet by ULA president and CEO Tory Bruno, Vulcan has ways to go before it launches Astrobotic's Peregrine lander (which has not arrived in Florida yet) to the Moon hopefully a few months from now.
Here is the to-do list:
- Vulcan core stage booster and Centaur V upper stage stacking
- Testing connections between the booster and its upper stage
- A rollout from Space Launch Complex (SLC)-41's Vertical Integration Facility (VIF) to the pad
- Redo the fueling test series that was performed with Vulcan's Pathfinder Tanking Test booster almost two years ago
- A full Wet Dress Rehearsal (WDR)
- A WDR that leads to a flight readiness firing on the pad at SLC-41
- A rollback to the VIF
- Installing the Peregrine lander and Amazon's two KuiperSat payloads atop Vulcan Centaur
- Testing the electrical interfaces between the payloads and Vulcan Centaur
- Conduct a pre-launch test of Peregrine and the KuiperSats themselves
- Roll Vulcan Centaur back to the pad at SLC-41, and then...
- LAUNCH!
Exciting times ahead.
ULA / Tory Bruno
ULA
ULA / Tory Bruno
ULA
ULA / Tory Bruno
ULA
ULA / Tory Bruno
Sunday, January 15, 2023
Photos of the Day: Peregrine and Its Vulcan Rocket Move a Step Closer to Their Much-Anticipated Launch...
Astrobotic
Just thought I'd share these cool images of Astrobotic's Peregrine lunar lander undergoing its final pre-launch test and United Launch Alliance's (ULA) first Vulcan Centaur rocket being sent to Cape Canaveral Space Force Station (CCSFS) in Florida to be prepped for its much-anticipated flight this year.
In the photo above, Astrobotic team members pose with Peregrine as it sat inside a thermal vacuum chamber (TVAC) at NASA's Marshall Space Flight Center in Huntsville, Alabama. Peregrine began its TVAC test over a week ago...with this being the last task to accomplish before the lander is trucked to its launch site at CCSFS within the next month or so.
In the pictures below, Vulcan's core stage booster, one of its twin payload fairings and the Centaur V upper stage motor are in various steps of being placed inside R/S Rocketship, ULA's transport vessel for Atlas V, Delta IV and now its Vulcan launch vehicle. Rocketship departed for Florida last week...on Friday the 13th.
As of this Blog entry, Rocketship is still navigating the Mississippi River route that takes it from ULA's factory in Decatur, Alabama to the Gulf of Mexico. By the time this ship reaches the Port of Canaveral in Florida from its river exit point near New Orleans, Louisiana, it would've traveled 2,100 miles one-way.
The Peregrine lander will venture about 114 times that distance once Vulcan sends it on its way to the Moon! Happy Sunday.
ULA / Tory Bruno
ULA / Tory Bruno
ULA / Tory Bruno
ULA / Tory Bruno
ULA / Tory Bruno
ULA / Tory Bruno
ULA
Thursday, January 12, 2023
Yet Another Beautiful Star-forming Region Has Been Photographed by Hubble's Successor...
NASA, ESA, CSA, O. Jones (UK ATC), G. De Marchi (ESTEC), and M. Meixner (USRA). Image processing: A. Pagan (STScI), N. Habel (USRA), L. Lenkic (USRA) and L. Chu (NASA / Ames)
NASA’s Webb Uncovers Star Formation in Cluster’s Dusty Ribbons (News Release - January 11)
NGC 346, one of the most dynamic star-forming regions in nearby galaxies, is full of mystery. Now, it is less mysterious with new findings from NASA’s James Webb Space Telescope.
NCG 346 is located in the Small Magellanic Cloud (SMC), a dwarf galaxy close to our Milky Way. The SMC contains lower concentrations of elements heavier than hydrogen or helium, which astronomers call metals, compared to the Milky Way.
Since dust grains in space are composed mostly of metals, scientists expected there would be low amounts of dust, and that it would be hard to detect. New data from Webb reveals the opposite.
Astronomers probed this region because the conditions and amount of metals within the SMC resemble those seen in galaxies billions of years ago, during an era in the universe known as “cosmic noon,” when star formation was at its peak. Some 2 to 3 billion years after the Big Bang, galaxies were forming stars at a furious rate.
The fireworks of star formation happening then still shape the galaxies we see around us today.
“A galaxy during cosmic noon wouldn’t have one NGC 346 like the Small Magellanic Cloud does; it would have thousands” of star-forming regions like this one, said Margaret Meixner, an astronomer at the Universities Space Research Association and principal investigator of the research team. “But even if NGC 346 is now the one and only massive cluster furiously forming stars in its galaxy, it offers us a great opportunity to probe conditions that were in place at cosmic noon.”
By observing protostars still in the process of forming, researchers can learn if the star formation process in the SMC is different from what we observe in our own Milky Way. Previous infrared studies of NGC 346 have focused on protostars heavier than about 5 to 8 times the mass of our Sun.
“With Webb, we can probe down to lighter-weight protostars, as small as one tenth of our Sun, to see if their formation process is affected by the lower metal content,” said Olivia Jones of the United Kingdom Astronomy Technology Centre, Royal Observatory Edinburgh, a co-investigator on the program.
As stars form, they gather gas and dust, which can look like ribbons in Webb imagery, from the surrounding molecular cloud. The material collects into an accretion disk that feeds the central protostar.
Astronomers have detected gas around protostars within NGC 346, but Webb’s near-infrared observations mark the first time they have also detected dust in these disks.
“We’re seeing the building blocks, not only of stars, but also potentially of planets,” said Guido De Marchi of the European Space Agency, a co-investigator on the research team. “And since the Small Magellanic Cloud has a similar environment to galaxies during cosmic noon, it’s possible that rocky planets could have formed earlier in the universe than we might have thought.”
The team also has spectroscopic observations from Webb’s NIRSpec instrument that they are continuing to analyze. These data are expected to provide new insights into the material accreting onto individual protostars, as well as the environment immediately surrounding the protostar.
These results are being presented January 11 in a press conference at the 241st meeting of the American Astronomical Society. The observations were obtained as part of program 1227.
Source: NASA.Gov
Wednesday, January 11, 2023
Hubble's Successor Has Officially Validated the Presence of Its First Alien World!
NASA
NASA’s Webb Confirms Its First Exoplanet (News Release)
Researchers confirmed an exoplanet, a planet that orbits another star, using NASA’s James Webb Space Telescope for the first time. Formally classified as LHS 475 b, the planet is almost exactly the same size as our own, clocking in at 99% of Earth’s diameter.
The research team is led by Kevin Stevenson and Jacob Lustig-Yaeger, both of the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland.
The team chose to observe this target with Webb after carefully reviewing targets of interest from NASA’s Transiting Exoplanet Survey Satellite (TESS), which hinted at the planet’s existence. Webb’s Near-Infrared Spectrograph (NIRSpec) captured the planet easily and clearly with only two transit observations.
“There is no question that the planet is there. Webb’s pristine data validate it,” said Lustig-Yaeger. “The fact that it is also a small, rocky planet is impressive for the observatory,” Stevenson added.
“These first observational results from an Earth-size, rocky planet open the door to many future possibilities for studying rocky planet atmospheres with Webb,” agreed Mark Clampin, Astrophysics Division director at NASA Headquarters in Washington. “Webb is bringing us closer and closer to a new understanding of Earth-like worlds outside our solar system, and the mission is only just getting started.”
Among all operating telescopes, only Webb is capable of characterizing the atmospheres of Earth-sized exoplanets. The team attempted to assess what is in the planet’s atmosphere by analyzing its transmission spectrum.
Although the data shows that this is an Earth-sized terrestrial planet, they do not yet know if it has an atmosphere. “The observatory’s data are beautiful,” said Erin May, also of the Johns Hopkins University Applied Physics Laboratory. “The telescope is so sensitive that it can easily detect a range of molecules, but we can’t yet make any definitive conclusions about the planet’s atmosphere.”
Although the team can’t conclude what is present, they can definitely say what is not present. “There are some terrestrial-type atmospheres that we can rule out,” explained Lustig-Yaeger. “It can’t have a thick methane-dominated atmosphere, similar to that of Saturn’s moon Titan.”
The team also notes that while it’s possible the planet has no atmosphere, there are some atmospheric compositions that have not been ruled out, such as a pure carbon dioxide atmosphere. “Counterintuitively, a 100% carbon dioxide atmosphere is so much more compact that it becomes very challenging to detect,” said Lustig-Yaeger.
Even more precise measurements are required for the team to distinguish a pure carbon dioxide atmosphere from no atmosphere at all. The researchers are scheduled to obtain additional spectra with upcoming observations this summer.
Webb also revealed that the planet is a few hundred degrees warmer than Earth, so if clouds are detected, it may lead the researchers to conclude that the planet is more like Venus, which has a carbon dioxide atmosphere and is perpetually shrouded in thick clouds. “We’re at the forefront of studying small, rocky exoplanets,” Lustig-Yaeger said. “We have barely begun scratching the surface of what their atmospheres might be like.”
The researchers also confirmed that the planet completes an orbit in just two days, information that was almost instantaneously revealed by Webb’s precise light curve. Although LHS 475 b is closer to its star than any planet in our solar system, its red dwarf star is less than half the temperature of the Sun, so the researchers project it could still have an atmosphere.
The researchers’ findings have opened the possibilities of pinpointing Earth-sized planets orbiting smaller red dwarf stars. “This rocky planet confirmation highlights the precision of the mission’s instruments,” Stevenson said. “And it is only the first of many discoveries that it will make.” Lustig-Yaeger agreed. “With this telescope, rocky exoplanets are the new frontier.”
LHS 475 b is relatively close, at only 41 light-years away, in the constellation Octans.
The team’s results were presented at a press conference of the American Astronomical Society (AAS) on Wednesday, January 11, 2023.
Source: NASA.Gov
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NASA, ESA, CSA, L. Hustak (STScI); Science: K. Stevenson, J. Lustig-Yaeger, E. May (Johns Hopkins University Applied Physics Laboratory), G. Fu (Johns Hopkins University), and S. Moran (University of Arizona)
Monday, January 09, 2023
Hubble's Successor Receives Accolades for Its On-Orbit Achievements in 2022...
Northrop Grumman
NASA’s Webb Telescope Awarded Robert H. Goddard Memorial Trophy (News Release)
The team behind NASA’s James Webb Space Telescope has been selected to receive the 2023 Robert H. Goddard Memorial Trophy, the premier award from the National Space Club and Foundation. This annual award honors an individual, group or program deemed by the Club to have made the most significant contribution to space activity in the previous year.
The award will be presented at the Club’s yearly Dr. Robert H. Goddard Memorial Dinner in Washington on March 10, 2023.
In 2022, the Webb team successfully completed an intricate series of deployments to unfold the observatory into its final configuration in space. They then precisely aligned its mirrors to within nanometers, set up and tested its powerful instruments, and officially began Webb’s mission to explore the infrared universe.
With its optics performing nearly twice as well as the mission required, Webb has already spotted some of the earliest galaxies ever observed, peered through dusty clouds to see stars forming, and provided a more detailed look at the atmospheres of planets outside our solar system than ever before. The Goddard Trophy will recognize the contributions of the team that designed, developed and now operate Webb, including individuals from NASA’s Goddard Space Flight Center, Greenbelt, Maryland; Northrop Grumman, Redondo Beach, California; the Space Telescope Science Institute, Baltimore; and Ball Aerospace, Boulder, Colorado.
The mission was also made possible by many international contributions from partnerships with ESA (European Space Agency) and CSA (Canadian Space Agency).
“Our team designed the James Webb Space Telescope to see the first lights that illuminated our universe,” said Mike Menzel, NASA Mission Systems Engineer for Webb at the Goddard Space Flight Center in Greenbelt, Maryland. “This required the largest ‘first of its kind’ telescope ever put into space along with 50 of the most complex deployments ever attempted to essentially re-build it on-orbit. After all these many years and many engineering challenges our team was struck with awe and wonder at the first images, and the satisfaction of knowing that whatever is out there we will see it.”
Recent winners of the Goddard Memorial Trophy include the teams behind NASA’s Ingenuity Mars Helicopter, New Horizons and Kepler mission.
Webb, an international mission led by NASA with its partners ESA (European Space Agency) and CSA (Canadian Space Agency), is the world’s premier space science observatory. Its design pushed the boundaries of space telescope capabilities to solve mysteries in our solar system, look beyond to distant worlds around other stars, and probe the mysterious structures and origins of our universe and our place in it.
NASA Headquarters, Washington oversees the Webb Telescope mission. NASA Goddard manages Webb for the agency and oversees work on the mission performed by the Space Telescope Science Institute, Northrop Grumman and other mission partners.
In addition to Goddard, several NASA centers contributed to the project, including the agency’s Johnson Space Center in Houston, Jet Propulsion Laboratory in Southern California, Marshall Space Flight Center in Huntsville, Alabama, Ames Research Center in California’s Silicon Valley, and others. Webb’s accomplishments have also recently been recognized by organizations including Aviation Week, Bloomberg Businessweek, Popular Science and TIME.
Source: NASA.Gov
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ESA / Webb, NASA & CSA, J. Lee and the PHANGS-JWST Team. Acknowledgement: J. Schmidt
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Sunday, January 01, 2023
Happy New Year, Everyone!
Richard Par
Just thought I'd commemorate the first day of 2023 by sharing these photos that I took with my Google Pixel 4A phone at the Banc of California Stadium near downtown Los Angeles last month.
I can't divulge why I was at this arena since I was here for work (and the Los Angeles Football Club, who won the Major League Soccer championship on their home field at this venue two months ago, is currently chillin' in the off-season) but I just wanted to point out that it was awesome being at this stadium even though it rained and was cold as hell outside! This was the second professional sports arena (behind SoFi Stadium last June) that I had the opportunity to work at in 2022.
Dodger Stadium and Angel Stadium of Anaheim are the only two arenas in Los Angeles and Orange County that my job has yet to book me at. Those assignments will come soon enough...even though I hate cattle calls.
Have a safe and prosperous New Year!
Richard Par
Richard Par
Richard Par
Richard Par
Richard Par
Richard Par
Richard Par
Richard Par
Richard Par
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