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The world is on high alert because of the unfolding crisis between Ukraine and Russia. Ever since Russian troops began deploying to the border regions between the two countries, there have been fears that conflict would ensure. Since the invasion began, there have also been genuine anxieties that it could spill over into neighboring states and even escalate to the point of a nuclear standoff. In the midst of all this, there have also been worries about the toll it might take on international efforts in space.

The International Space Station (ISS) is made possible through the cooperative efforts and funding of its participating space agencies – NASA (U.S.), Roscosmos (Russia), the ESA (Europe), the CSA (Canada), and JAXA (Japan). As such, it was rather curious when Russian state media company RIA Novosti posted a video online that showed Russian cosmonauts packing up and detaching the Russian segment from the ISS. Whether this represents a threat or a prediction, the message is clear: cooperation in space may be the next casualty of this war!

Russian gov’t-controlled RIA Novosti @rianru posted a video on Telegram made by @Roscosmos where cosmonauts say goodbye to Mark Vande Hei on #ISS, depart, and then the Russian segment detaches from the rest of ISS. @Rogozin is clearly threatening the ISS program. #NASA #Ukraine pic.twitter.com/fj2coK1xR1

— NASA Watch (@NASAWatch) March 5, 2022

The video appeared on Telegram, a cloud-based instant messaging platform that was previously restricted in Russia (it was officially unblocked in June 2020). The video is tagged with RIA Novosti’s logo (??? ???????) and shows cosmonauts entering the Russian segment of the ISS, sealing the hatches behind them, and saying goodbye to NASA astronaut Col. Mark T. Vande Hei, the Flight Engineer for Expedition 64 and 65 (Oct. 2020 to Oct. 2021).

The video then shows the Russian segment – made up of the Zarya, Zvesta, and Nauka modules – detaching from the station (which includes real footage and CGI-animation) and footage of mission controllers at the RKA Mission Control Centre in Moscow watch and applaud. The video concludes with the disclaimer: “This is based on unreal events.” In other words, the video consists of spliced footage depicting something that hasn’t actually happened (just in case that wasn’t clear!)

This video appears to be the latest salvo in an ongoing war of words between Russian sources and astronauts on social media. On the same day that NASA Watch retweeted the video, Roscosmos head Dmitry Rogozin tweeted the following statement:

“The blame for the collapse of cooperation in space lies on the shoulders of the United States, Britain, France and Germany. These countries destroyed what was created by mankind with such difficulty, what was created by the blood and sweat of those people who mastered space.”

This echoed statements he made in an interview with Russian state television (the clip was included in the tweet). It was also mirrored by multiple statements and actions taken by Rogozin in recent weeks, all of which appeared to show how Russia could threaten or hold up operations aboard the ISS. It all began with Rogozin tweeting his support for Russia’s invasion of Ukraine and threatening to stop cooperating on the ISS.

?????????? ?? ????????? ??????, ??? ??? ?????? ????????? ????? ???? ?????? ????? ????? ?????????. pic.twitter.com/jG1ohimNuX

— ??????? (@Rogozin) March 2, 2022

These include (but are not limited to) announcing that Russia will no longer service Russian-made engines used to launch American satellites. Shortly after U.S. President Joe Biden announced sanctions aimed at Russia’s aerospace industry, Rogozin issued a series of hostile tweets. In one, posted on Feb. 24th, he went as far as to say that without Roscosmos, the ISS could fall on Europe:

“Europe? There is also the option of dropping a 500-ton structure to India and China. Do you want to threaten them with such a prospect? The ISS does not fly over Russia, so all the risks are yours. Are you ready for them? Gentlemen, when planning sanctions, check those who generate them for illness.”

On Feb. 27th, while arguing with a user who voiced criticism of his support for Putin and the invasion of Ukraine, he tweeted: “Reading the news feed, you see what chronic hatred the West has for Russia, and how every Russophobe is trying to interrupt the “common cause” with a personal contribution of his own s*** and poison.”

But it was the video he posted on March 2nd that appeared to have the biggest impact. In this video, technicians at the Baikonur Cosmodrome in Kazakhstan are shown taping over the American and Japanese flag decals on a Russian rocket, with the caption: “The launchers at Baikonur decided that without the flags of some countries, our rocket would look more beautiful.”

https://www.mansbrand.com/future-mars-explorers-could-be-farming-oxygen-from-landscapes-like-this/

Frontier Adventure

Curiosity Rover is Climbing Through Dramatic Striped Terrain on Mars

Mars Curiosity from HiRISE Circled PIA26245 figA 580x460 1 jpg

Just about every day we here on Earth get a breathtaking picture of Mars’s terrain sent back by a rover. But, the view from space can be pretty amazing, too. The Mars Reconnaissance Orbiter (MRO) just sent back a thought-provoking picture of Curiosity as it makes its way up a steep ridge on Mount Sharp.

The rover is a tiny black dot in the center of the image, which gives a good feeling for what MRO’s HiRISE camera accomplished. For scale, the rover is about the size of a dinner table, sitting in a region of alternating dark and light bands of material on the Red Planet.

NASA's Curiosity Mars rover appears as a dark speck in this image captured from directly overhead by the agency's Mars Reconnaissance Orbiter, or MRO. Credit: NASA/JPL-Caltech/University of Arizona
NASA’s Curiosity Mars rover appears as a dark speck in this image captured from directly overhead by the agency’s Mars Reconnaissance Orbiter, or MRO. Credit: NASA/JPL-Caltech/University of Arizona

Where’s Curiosity?

The Curiosity rover is exploring an ancient ridge on the side of Mount Sharp, which is the peak of a crater on Mars. It’s sitting on the side of a feature called Gediz Vallis Ridge, and the terrains and materials preserve a record of what things were like when water last flowed there. That happened about three billion years ago. The force of the flow brought significant amounts of rocks and debris through the region. They piled up to form the ridge. So, much of what you see here is the desiccated remains of that flooding.

Debris flows are pretty common here on Earth, particularly in the aftermath of floods, volcanic eruptions, tsunamis, and other actions. We can see them wherever material floods through a region or down a slope. In a flood-based flow, the speed of the water combines with gravity and the degree of slope to send material rushing across the surface. A debris flow can also be a dry landslide, and those can occur pretty much anywhere on Earth where the conditions are right. Another type of debris flow comes from volcanic activity. That occurs when material erupts from a volcano, or when earthquakes combined with an eruption collapse material into the side of the mountain. That results in what’s called a “lahar”. Folks in North America might recall the Mount St. Helens eruption in 1980; it resulted in several lahars that buried parts of the surrounding terrain.

Now that scientists see similar-seeming regions on Mars, they want to know several things. How did they form? Were they created by the same processes that make them on Earth? And, how long ago did they begin to form? Curiosity and Perseverance and other rovers and landers have been sent to Mars to help answer those questions.

Understanding the Debris Ridge

Did any of these actions happen on Mars? The evidence is pretty strong, which is why Gediz Vallis itself is a major exploration goal for the rover. It’s a canyon that stretches across 9 kilometers of the Martian surface and is carved about 140 meters deep. Gediz was likely carved by so-called “fluvial” activity (meaning flowing action) in the beginning. Later floods deposited a variety of fine-grained sands and rocks. Over time, winds have blown a lot of that material away, leaving behind protected pockets of materials left behind by the flooding. The size of the rocks tells something about the speed of the flows that deposited all the material. Geological studies of those rocks will reveal their mineral compositions, including their exposure to water over time.

The Gediz Vallis ridge resulted from the action of water pushing rocks and dirt around to build it up over time. Planetary scientists now need to figure out the sequence of events that created it. The clues lie in the scattered rocks in the region and the surrounding terrain. Mount Sharp itself (formally known as Aeolis Mons), is about 5 kilometers high and is, essentially, a stack of layered sedimentary rocks. As Curiosity makes its way up the mountain, it explores younger and younger materials.

https://mansbrand.com/a-giant-gamma-ray-bubble-is-a-source-of-extreme-cosmic-rays/

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Frontier Adventure

A Giant Gamma-Ray Bubble is a Source of Extreme Cosmic Rays

Gamma ray burst illustration article jpg

Gamma-ray bursts (GRBs) are one of the most powerful phenomena in the Universe and something that astronomers have been studying furiously to learn more about their origins. In recent years, astronomers have set new records for the most powerful GRB ever observed – this includes GRB 190114C, observed by the Hubble Space Telescope in 2019, and GRB 221009A, detected by the Gemini South telescope in 2022. The same is true for high-energy cosmic rays that originate from within the Milky Way, whose origins are still not fully understood.

In a recent study, members of China’s Large High Altitude Air Shower Observatory (LHAASO) Collaboration discovered a massive gamma-ray burst (designated GRB 221009A) in the Cygnus star-forming region that was more powerful than 10 peta-electronvolts (PeV, 1PeV=1015eV), over ten times the average. In addition to being the brightest GRB studied to date, the team was able to precisely measure the energy spectrum of the burst, making this the first time astronomers have traced cosmic rays with this energy level back to their source.

The team was led by Prof. Cao Zhen, a professor at the Institute of High Energy Physics of the Chinese Academy of Sciences (CAS-IHEP), and included CAS members Dr. Gao Chuandong, Dr. Li Cong, Prof. Liu Ruoyu, and Prof. Yang Ruizhi. Their results were described in a paper titled “An ultrahigh-energy gamma-ray bubble powered by a super PeVatron,” which appeared on November 15th in Science Bulletin. The LHAASO Collaboration comprises over 280 members representing 32 astrophysics research institutions worldwide.

The Large High-Altitude Air Shower Observatory (LHAASO) is a composite array made up of 5216 electromagnetic particle detectors, 1188 muon detectors, a 78,000-square-meter water Cherenkov detector array, and 18 wide-angle Cherenkov telescopes. The observatory is located at a height of 4,410 meters (14468.5 ft) on Mount Haizi in Sichuan Province, China, and is dedicated to studying cosmic rays. When cosmic rays reach Earth’s atmosphere, they create “showers” of secondary particles, some of which reach the surface.

The origin of cosmic rays is one of the most important issues in astrophysics today. In the past few decades, astronomers have detected three high-energy GRBs at a peak of about one petaelectronvolts (PeVs) – one quadrillion electronvolts (1015eV) – in their energy spectrum. Scientists believe cosmic rays with energy beneath this level come from astrophysical sources within the Milky Way (like supernovae). This peak energy represents a limit for cosmic rays, which generally take the form of protons accelerated to near-light speed.

However, the origins of cosmic rays in the region of a few petaelectronvolts remain one of the more intriguing mysteries in astrophysics today. Based on data acquired by LHAASO, the Collaboration team discovered a giant ultra-high-energy gamma-ray bubble in the Cygnus X cluster (the largest star-forming region in the Solar neighborhood) located roughly 2.4 billion light-years from Earth. Photons detected inside the structure showed a maximum energy reading of 2.5 PeV, while those ejected showed energy values of up to 20 PeV – the highest ever recorded.

From this, the team inferred the presence of a massive cosmic ray accelerator near the center of the Bubble, which they believe to be the massive star cluster Cygnus OB2 within Cygnus X. This cluster is composed of many young massive stars, including blue-white O-type giants and B-type blue giants, with surface temperatures of over 35,000 and 15,000 °C (63,000 and 27,000 °F), respectively. These stars generate radiation pressure hundreds to millions of times that of the Sun that blows stellar surface material away, creating solar winds that move at speeds of up to thousands of kilometers per second.

GRB
GRB 221009A: looking back through time. Credit: ESA

Collisions between this wind and the ISM create high-energy gamma rays and the ideal environment for efficient particle acceleration. These findings represent the highest-energy cosmic rays detected to date and the first cosmic ray accelerator ever observed. The team’s observations also indicated that the
Did you miss our previous article…
https://mansbrand.com/hiking-half-dome-how-to-do-it-right-and-get-a-permit-2/

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Hiking Half Dome: How to Do It Right and Get a Permit

Tet19 047 Me on Teton Crest Trail copy cropped 4 jpg

By Michael Lanza

No hike in the country really compares with Yosemite’s Half Dome. The long, very strenuous, challenging, and incredibly scenic day trip to one of the most iconic and sought-after summits in America begins with ascending the Mist Trail through the shower constantly raining down from 317-foot Vernal Fall and below thunderous, 594-foot Nevada Fall. Climbing the cable route up several hundred feet of steep granite slab delivers a thrill that partly explains the hike’s enormous popularity.

The 8,800-foot summit of Half Dome—where many hikers complete the experience by standing on The Visor, a granite brim jutting out over Half Dome’s sheer, 2,000-foot Northwest Face—delivers an incomparable view of Yosemite Valley and a 360-degree panorama of a big swath of the park’s mountains.

Half Dome validates every step of effort you put into it.

Having been up and down those cables a handful of times over more than 30 years of dayhiking and backpacking all over the country—including many years running this blog and previously as the Northwest Editor of Backpacker magazine for 10 years—I consider Half Dome one of the very best dayhikes in the entire National Park System and certainly one of America’s hardest dayhikes.

Tet19 047 Me on Teton Crest Trail copy cropped 5 jpg
Hi, I’m Michael Lanza, creator of The Big Outside. Click here to sign up for my FREE email newsletter. Join The Big Outside to get full access to all of my blog’s stories. Click here for my e-books to classic backpacking trips. Click here to learn how I can help you plan your next trip.

A hiker atop Half Dome in Yosemite National Park.
” data-image-caption=”Mark Fenton on The Visor of Half Dome, high above Yosemite Valley, in Yosemite National Park.
” data-medium-file=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?fit=300%2C199&ssl=1″ data-large-file=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?fit=900%2C598&ssl=1″ src=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?resize=900%2C598&ssl=1″ alt=”A hiker atop Half Dome in Yosemite National Park.” class=”wp-image-35446″ srcset=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?resize=1024%2C680&ssl=1 1024w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?resize=300%2C199&ssl=1 300w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?resize=768%2C510&ssl=1 768w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?resize=1080%2C717&ssl=1 1080w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2018/07/Yos11-041-Mark-summit-of-Half-Dome-Yosemite-N.P.-CA-2.jpg?w=1200&ssl=1 1200w” sizes=”(max-width: 900px) 100vw, 900px” data-recalc-dims=”1″ />Mark Fenton on The Visor or Half Dome, high above Yosemite Valley, in Yosemite National Park. Click photo to read about this backpacking trip.

The cables are up for hiking Half Dome from late May through mid-October. A permit is required for this popular dayhike and a permit lottery takes place throughout March. Yosemite requires a reservation to drive into or through the park on some days from April 13 through Oct. 27; nps.gov/yose/planyourvisit/reservations.htm.

This story shares what I’ve learned about navigating the competitive permit system and embarking on such a demanding day of hiking that’s roughly 16 miles round-trip with almost 5,000 feet of elevation gain and loss. Please share your thoughts or questions about hiking Half Dome in the comments section at the bottom of this story. I try to respond to all comments
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