Saturday, July 31, 2021

New polymer composite for electromagnetic shielding applications

JULY 30, 2021, by The National University of Science and Technology MISIS

Rotating coastal radar surveillance station. 
Credit: Janar Sinivali




scientists from NUST MISIS, South Ural State University and Joint Institute for Nuclear Research together with colleagues from Egypt, Saudi Arabia and Belarus have developed a new radar absorbing polymer composite with exfoliated graphite (EG)/barium aluminum hexaferrite (HF) fillers. The new composite has excellent magnetic and microwave properties. It can absorb 99.9% of the incoming electromagnetic radiation, which makes it a promising absorption block in electromagnetic interference (EMI) shielding applications. The study was published in Journal of Alloys and Compounds.

The new composite has a wide range of potential applications, from 5G networks to radar-absorbing coatings. The obtained material effectively minimizes the intensity of the reflected signal, becoming undetectable in the microwave region.

"The high absorption coefficient was achieved by combining a magnetic dielectric filler (barium gesaferrite) and a diamagnetic conductive filler (nanographite). It is this idea (a combination of powdery filler materials with fundamentally different electrodynamic characteristics in the formation of functional composites) that has novelty and relevance. Today, the "age of single-phase materials" is coming to its end. It should be noted that to obtain this result, a lot of work was done on the study of substituted barium hexaferrites. Thus, complex studies of the correlation of chemical composition, structural features, electrical, magnetic and microwave properties of a wide range of solid hexaferrite solutions were carried out. The most optimal chemical compositions for the synthesis of the composite were selected. The new composite material has excellent shielding properties, and, at the same time, is characterized by lightness, flexibility, chemical stability and good compatibility with various polymer matrixes," noted Aleksey Trukhanov, Ph.D., the NUST MISIS College of New Materials and Nanotechnologies.

Polyvinylidene fluoride (PVDА) was used as the matrix of the composite. PVDF is a valuable polymer due to its chemical stability, resistance to organic solvents, and high elastic modulus compared to other polymers. The PVDF was used for preparing the composite to overcome the main disadvantages of hexaferrite, like fragility and the inability to be easily manipulated into the desired shapes.

The scientists found that the optimum weight percentage of HF and PVDF is 15 wt% PVDF + 85 wt% HF. The EG concentration should not exceed 5 wt%. High concentration may expand agglomeration and porosity inside the finished material and give inaccurate measurements. The new composite can be used as electromagnetic shielding for the incident electromagnetic radiation with more than 99% attenuation.


Recommend this post and follow
Sputnik's Orbit




Posted by Chuck

SPACE - S0 - 20210731 - Disaster Cycles, Solar Forcing, Electroquakes, Earth Rotation

SPACE - S0 - 20210731 - Disaster Cycles, Solar Forcing, Electroquakes, Earth Rotation

Good Morning, 0bservers!

    
     
Solar wind speeds got a little weird around midday yesterday, topping out at 525 KPS only to drop to 410 KPS less than an hour later and jumping back to 500 KPS. It's had a steady and slow drop since then, dipping below 450 KPS around 1000 UTC. Particle density jumped around the time the wind speed dipped, but this seems to have been tied to a Bt/Bz polarity collision (which scrambled the Phi Angle for a while). That collision caused a brief spike in Temperature to almost 5700°K, then returned to a 5100°K-4700°K until midnight, and then it dropped precipitously after midnight and is currently in the 4100°K-4300°K range. Oh, and we had more collisions after 0500 UTC, again making the Phi Angle go both doo and lally. The Magnetometer surprised me a bit, with an earlier than expected high/low sine wave, topping out at 140 nT, but the lower end was 65 nT, well above the 40 nT threshold. The KP-Index remains green, with mostly KP-2 readings and a few KP-1s. The Proton Flux remained nominal, and the Electron Flux was mostly nominal, but the readings for the latter did rise up close to the alert threshold but went back down. The X-Ray Flux was surprisingly dull, with pretty much zero spikes as well as a slight downward trend continuing in background radiation. The ENLIL Spiral is showing some sort of ejection heading this way from yesterday, but I couldn't find anything corresponding to this on any of the video loops (including the LASCO C3). Ben confirmed no ejection in the video above, so we're good...
  
Please Recommend this page and be sure to follow the Sputnik's Orbit 


AND WHILST YOU ARE HERE BE SURE TO FOLLOW AND RECOMMEND THE THANK GOODNESS ITS OWEN FRIDAY BLOGSPOT! https://tgiof.blogspot.com/

Friday, July 30, 2021

Clays, not water, are likely source of Mars 'lakes'

JULY 29, 2021, by NASA

This image taken by NASA’s Mars Reconnaissance Orbiter shows ice sheets at Mars’ south pole. The spacecraft detected clays nearby this ice; scientists have proposed such clays are the source of radar reflections that have been previously interpreted as liquid water. 
Credit: NASA/JPL-Caltech/University of Arizona/JHU

Three studies published in the past month have cast doubt on the premise of subsurface lakes below the Martian south pole.

Where there's water, there's life. That's the case on Earth, at least, and also why scientists remain tantalized by any evidence suggesting there's liquid water on cold, dry Mars. The Red Planet is a difficult place to look for liquid water: While water ice is plentiful, any water warm enough to be liquid on the surface would last for only a few moments before turning into vapor in Mars' wispy air.

Hence the interest generated in 2018, when a team led by Roberto Orosei of Italy's Istituto Nazionale di Astrofisica announced they had found evidence of subsurface lakes deep below the ice cap at Mars' south pole. The evidence they cited came from a radar instrument aboard the ESA (European Space Agency) Mars Express orbiter.

Radar signals, which can penetrate rock and ice, change as they're reflected off different materials. In this case, they produced especially bright signals beneath the polar cap that could be interpreted as liquid water. The possibility of a potentially habitable environment for microbes was exciting.

But after taking a closer look at the data, along with experiments in a cold laboratory here on Earth, some scientists now think clays, not water, might be creating the signals. In the past month, a trio of new papers have unraveled the mystery—and may have dried up the lakes hypothesis.

A Scientific Ecosystem

Martian polar scientists belong to a small, tight-knit community. Not long after the lakes paper was published, about 80 of those scientists met for the International Conference on Mars Polar Science and Exploration in Ushuaia, a seaside village at the southern tip of Argentina.

Gatherings like these provide an opportunity to test new theories and challenge each other's perspectives. "Communities can generate their own little scientific ecosystems," said Jeffrey Plaut of NASA's Jet Propulsion Laboratory, one of the scientists who traveled to the conference. He's also the co-principal investigator, along with Orosei, of the instrument behind the intriguing radar signals, called MARSIS, or the Mars Advanced Radar for Subsurface and Ionospheric Sounding. "These communities can be self-sustaining," he continued, "because you bounce a question off someone and maybe a year or two later they help you figure out an answer."

Lots of talk centered on the subsurface lakes. How much heat would it take to keep water liquid under all that ice? Could brine be lowering the freezing point of the water enough to keep it liquid?

The colored dots represent sites where bright radar reflections have been spotted by ESA’s Mars Express orbiter at Mars’ south polar cap. Such reflections were previously interpreted as subsurface liquid water, but their prevalence and proximity to the frigid surface suggest they may be something else.
 Credit: ESA/NASA/JPL-Caltech

Of course, it wouldn't be the first time an exciting water-related hypothesis set off a flurry of investigations. In 2015, NASA's Mars Reconnaissance Orbiter found what looked like streaks of damp sand running down slopes, a phenomenon called "recurring slope lineae." But repeated observations using the spacecraft's HiRISE—or High-Resolution Imaging Science Experiment—camera have since revealed this is more likely the result of sand flows. A paper released earlier this year found many recurring slope lineae after a global dust storm on Mars in 2018. The finding suggested that dust settling on slopes triggers sand flows, which, in turn, expose the darker subsurface materials that give the lineae their distinctive coloration.

As with the damp-sand hypothesis, several scientists began thinking up ways to test the subsurface-lakes hypothesis. "There was a feeling that we should try to address this," said Isaac Smith of York University in Toronto, who organized the conference in Ushuaia and led the most recent study showing that clays can explain the observations.

Too Cold for Lakes

Among those scientists was Plaut. He and Aditya Khuller, an Arizona State University doctoral student who was interning at JPL, analyzed 44,000 radar echoes from the base of the polar cap across 15 years of MARSIS data. They turned up dozens more bright reflections like the ones in the 2018 study. But in their recent paper published in Geophysical Research Letters, they found many of these signals in areas close to the surface, where it should be too cold for water to remain liquid, even when mixed with perchlorates, a kind of salt commonly found on Mars that can lower the freezing temperature of water.

Two separate teams of scientists then analyzed the radar signals to determine whether anything else could be producing those signals.

Carver Bierson of ASU completed a theoretical study suggesting several possible materials that could cause the signals, including clays, metal-bearing minerals, and saline ice. But York University's Isaac Smith, knowing that a group of clays called smectites were present all over Mars, went further in a separate, third paper: He measured smectite properties in a lab.

Smectites look like ordinary rock but were formed by liquid water long ago. Smith put several smectite samples into a cylinder designed to measure how radar signals would interact with them. He also doused them with liquid nitrogen, freezing them to minus 58 degrees Fahrenheit (minus 50 degrees Celsius) – close to what they would be at the Martian south pole.

"The lab was cold," Smith said. "It was winter in Canada at the time, and pumping liquid nitrogen into the room made it colder. I was bundled up in a hat, jacket, gloves, scarf, and a mask because of COVID-19. It was pretty uncomfortable."

After freezing the clay samples, Smith found their response nearly perfectly matched the MARSIS radar observations. Then, he and his team checked for clays present on Mars near those radar observations. They relied on data from MRO, which carries a mineral mapper called the Compact Reconnaissance Imaging Spectrometer, or CRISM.

Bingo. While CRISM can't peer through ice, Smith found smectites scattered in the vicinity of the south pole's ice cap. Smith's team demonstrated that frozen smectite can make the reflections—no unusual amounts of salt or heat are required—and that they're present at the south pole.

There's no way to confirm what the bright radar signals are without landing at Mars' south pole and digging through miles of ice. But the recent papers have offered plausible explanations that are more logical than liquid water.

"In planetary science, we often are just inching our way closer to the truth," Plaut said. "The original paper didn't prove it was water, and these new papers don't prove it isn't. But we try to narrow down the possibilities as much as possible in order to reach consensus."


Recommend this post and follow
Sputnik's Orbit

SPACE - S0 - 20210730 - Science Slap, Tropic Snow, Deep Life

SPACE - S0 - 20210730 - Science Slap, Tropic Snow, Deep Life

Good Morning, 0bservers!

    
     
Solar winds are calming from the coronal hole hit on Wednesday, now in the 450-500 KPS range. Looks like those small CMEs incorporated themselves into the coronal hole stream. Particle Density has been on a steady decrease, and Temperatures are slowly reducing to the 5000°K-5100°K levels as a whole. The Phi Angle was steady(er) yesterday than the past couple of days, but we can see a couple of polarity collisions on the Bt/Bz chart at 0730 UTC and 1000 UTC that have scrambled that particular egg. We're also seeing the KP-Index easing back, now at KP-1 to KP-2 levels. The Magnetometer sine wave is shallowing, probably another day or two of that before it has high/low peaks. Proton Flux and Electron Flux remain nominal. No flares on the X-Ray Flux charts, and the background radiation continues a very slow downward trend. That new Southern coronal hole is just passing the midline now, but it's also collapsing as it moves Westward. I am seeing a new Southern bright spot at about 35°, but it doesn't really have a lot of light output and it barely registers any magnetic structure on the Magnetogram.
  
Please Recommend this page and be sure to follow the Sputnik's Orbit 


AND WHILST YOU ARE HERE BE SURE TO FOLLOW AND RECOMMEND THE THANK GOODNESS ITS OWEN FRIDAY BLOGSPOT! https://tgiof.blogspot.com/

Space News: NASA's Hubble finds evidence of water vapor on Jupiter's moon, Ganymede

 

NASA's Hubble finds evidence of water vapor on Jupiter's moon, Ganymede


Ganymede is thought to have more water than all of Earth's oceans, but it is trapped deep underneath its frozen crust.


Thursday, July 29, 2021

Rocket tanks of carbon-fiber–reinforced plastic are proven possible

JULY 28, 2021, by European Space Agency

MT Aerospace and Ariane Group signed contracts with ESA on 14 May 2019 to develop Phoebus, a prototype of a highly-optimised black upper stage. Rocket upper stages are commonly made of aluminium but switching to carbon composites lowers cost and could yield two tonnes spare payload capacity.
 Credit: ArianeGroup

Future rockets could fly with tanks made of lightweight carbon fiber reinforced plastic thanks to ground-breaking research carried out within ESA's Future Launchers Preparatory Program.

Building on earlier studies, MT Aerospace in Germany has demonstrated a novel design of a small scale tank made of a unique carbon-fiber reinforced plastic (CFRP) that is not only leak-proof with liquid hydrogen, but also compatible with liquid oxygen, without the use of a metal liner.

A tank made solely of CFRP is much lighter than metal, requires fewer parts and is therefore faster and cheaper to manufacture.

This is a milestone achievement as normally, storage of cryogenic propellants such as these which are cooled to -253˚C requires tanks with metallic liners to make them leak-proof, with or without a composite overwrap.

"Fuel tanks are safety-critical elements in any propulsion system," explained Hans Steininger, CEO at MT Aerospace. "We have provided proof that a high-performance pressure tank made of CFRP can withstand cryogenic stress. In the future, the use of CFRP high-performance tanks should not only enable safe rocket launches, it can also exploit the advantage of significantly lower mass compared to metallic tanks."

"This is a tremendous step forward. We have found a very specific carbon composite and processing method that will allow us to consider new architectures and combinations of functions for rocket upper stages which are not possible using metal," added Kate Underhill, Upper stage and propulsion demonstrators project manager in the Future Launchers Preparatory Program at ESA.

Tests show that lightweight carbon-fibre reinforced plastic is strong enough to replace metal used in upper-stage rocket structures. This is an important milestone in Europe for the development of a prototype of a highly-optimised ‘black’ upper stage, Phoebus, a joint initiative by MT Aerospace and ArianeGroup, funded by ESA’s Future Launchers Preparatory Programme. MT Aerospace tested the strength of a subscale oxidiser tank made from carbon-fibre reinforced plastic. During these tests, the tank was filled and drained multiple times, pressurised beyond operational limits and shock tested to ensure no ignition event of the oxygen tank. Sensors monitored pressure, temperature, strain or a possible leakage. The analysis of the results and the overall good structural integrity of the tank prove the technology for use in a Phoebus upper stage.
 Credit: MT Aerospace AG

"Metal is leak-tight. To recreate the same property with carbon composite required a complex weave of black carbon fiber and a special resin. The material resisted cryogenic temperatures, pressure cycles and reactive substances over a number of separate tests."

Following these 'bottle' tests, small-scale tank demonstrators with integrated thermal protection will soon be built for further tests. Data collected will feed into development of a full-scale demonstrator of a future highly-optimized upper stage, called Phoebus.

Phoebus will have 3.5m diameter hydrogen and oxygen tanks, thermal protection, structural assembly elements and feature new technologies in avionics, structures and propulsion equipment. CFRP will be applied in the tanks, the interface structure between the two tanks and the outside cylinder representative of the upper stage outer skin.

The Phoebus demonstrator will be tested with cryogenic fluids in 2023 to confirm the functional performance of the technologies and new cost-efficient production methods as part of a new contract to advance the development of highly optimized upper stages.

"Here is an excellent example of how ESA's support to mature cutting-edge technologies leads to major breakthroughs. This new lightweight carbon-based material would allow the manufacture of an Ariane 6 upper stage that is two tons lighter—mass made free for payloads," said Daniel Neuenschwander, ESA Director of Space Transportation.

The Phoebus project is a joint initiative by MT Aerospace and Ariane Group in Germany to validate key technologies developed with support from ESA since May 2019.


Recommend this post and follow
Sputnik's Orbit



Posted by Chucker

SPACE - S0 - 20210729 - Electric Eruptions, Magnetic Spin Change, Galactic Ring

SPACE - S0 - 20210729 - Electric Eruptions, Magnetic Spin Change, Galactic Ring

Good Morning, 0bservers!

    
     
Solar Wind speeds remain elevated from yesterdays coronal hole impact, peaking at 575 KPS around 0200 UTC, and currently in the 515-530 KPS range. After Particle Density dropped out right before yesterday's wind speed increase, it's been taking as steady downward path. Temperatures got incredibly high, hitting 6000°K a few times around noon UTC, but it is back down in the 5200°K-5300°K since 1400 UTC. The apparent steadying of the Phi Angle yesterday morning was incredibly short-lived, as it really got scrambled like an egg around 1100UTC when a series of Bt/Bz polarity collisions began for about 4-6 hours, with another bump around 2200 UTC. Since then the positive and negative magnetic fields have been (somewhat) separated so the Phi Angle seems to be slightly more stable. KP-Index readings are elevated but still green, with a strong mix of KP-3s with a lesser number of KP-2s. The Magnetometer is showing another high/low sine wave, dropping below 55 nT yesterday and touching the 60 nT line this morning, but it's still in a safe enough place. Proton Flux and Electron Flux readings are also nominal. The X-Ray Flux chart is calmer than yesterday, not really going beyond the mid-Class B range for the "worst" of its spikes, and we're seeing the background radiation down to the upper third of Class A. The video loop at 193Å showed an plasma release in the North that wasn't displayed on yesterday's page, but it may have stayed within the solar atmosphere. No real jumps or sparks from the sunspots, but we do have a new coronal hole developing in the South just below the equator. Expecting to see that cross the midpoint by tomorrow. Not really seeing much in the way of "glow" on the Eastern lim to suggest new incoming sunspots (thankfully) and the ones we've got are continuing to dissipate as they move out of range. We've got some widely-separated positive and negative magnetic fields in the North that should reach central heliographic longitude in the next 36-48 hours, but unless the coalesce or grow I'm doubtful they'll have any negative effect. But, this is the Sun in the upturn of a solar cycle, so it can be full of nasty little surprises...
* * *
A new video from Suspicious0bservers, "The Disaster Cycle Is Marching On | Special Message For You"
 
Enjoy!
  
Please Recommend this page and be sure to follow the Sputnik's Orbit 


AND WHILST YOU ARE HERE BE SURE TO FOLLOW AND RECOMMEND THE THANK GOODNESS ITS OWEN FRIDAY BLOGSPOT! https://tgiof.blogspot.com/

Defense News: Rafael, Oshkosh demonstrate firing of Spike missiles from tactical vehicle

 

Rafael, Oshkosh demonstrate firing of Spike missiles from tactical vehicle 



In the demonstration hosted by the Estonian Navy, two Spike missiles were fired from a launcher on the Oshkosh JLTV. The targets located in the sea, beyond the line of sight, were destroyed, Rafael said. 


By  Eyal Boguslavsky, Isrsel Defense 07/28/2021

https://www.israeldefense.co.il/en/node/51125

A JLTV firing a Spike NLOS ( Rafael photo ) 

Israel's Rafael Advanced Defense Systems and American company Oshkosh Defense have conducted a successful demonstration of the firing of Rafael's Spike NLOS (Non-Line-Of-Sight) missile from an Oshkosh Joint Light Tactical Vehicle (JLTV). The demonstration hosted by the Estonian Navy was attended by representatives from 14 countries, including NATO countries that have deployed the missile, as well as senior Estonian Defense Ministry officials and members of the Estonian Armed Forces, Rafael said. 

The demonstration included the firing of two Spike NLOS missiles from a launcher mounted on the Oshkosh JLTV. The missiles were fired at two targets with different characteristics in the sea, beyond the line of sight, and both targets were destroyed. The demonstration displayed the missile's capability to address modern coastal protection challenges including a variety of targets, either at sea or on land, and dense marine traffic, according to Rafael.

Last year, as reported by Israel Defense, the Estonian Army conducted a demonstration in which two short-range Spike SR missiles were fired. The Estonian Ministry of Defense signed a framework agreement with joint venture Eurospike in September 2019 to acquire Rafael's Spike long-range (LR) anti-tank guided missiles for €40 million (approx. $45 million). 

Spike NLOS Fire Demostration Estonia 22.07.21


The Spike NLOS is a fifth generation, 32 km-range missile that is highly effective due to its navigation system and lethal warheads capable of destroying a wide range of targets. It is part of the Spike family of multi-mission, precise, electro-optical missiles that has been deployed by 37 customers worldwide, according to the company.

The Spike NLOS enables visual target identification and precision strikes at extended ranges and beyond the line of sight against targets on land or at sea. It has a bi-directional datalink, enabling full control of the missile from launch until impact with pinpoint precision that is not affected by range. Unlike laser-guided or active radar munitions, the missile's electro-optical guidance is completely passive and is capable of operating in GPS-denied environments, Rafael said.  


Wednesday, July 28, 2021

Record-setting super shoes are here to stay, say experts

JULY 28, 2021, by Luke Phillips

Uganda's Joshua Cheptegei is one of the top runners to have set world records using the 'super shoes'

Derided by purists, evangelised by innovators: "super shoes" are the tools of the trade for today's athletes and will continue to radically change the landscape of track and road running, experts have told AFP.

A mass of not only new world records, but also a slew of national records and startling personal bests since the 2016 Rio Olympics show athletes are thriving on new technology that has pushed the biomechanics of the running shoe to a new level.

When the Olympic athletics programme starts in Tokyo on Friday, many athletes will be wearing the super-light shoes that contain a rigid plate and unique foam that lend a propulsive sensation to every stride.

Critics claim the shoes, first developed by Nike, are the equivalent of mechanical doping, while supporters hail them as a revolutionary advance after decades of stagnation.

"There seems to be an acceptance now that the new generation of shoes are part of the sport moving forward," Geoff Burns, a biomechanics and sport performance researcher at the University of Michigan and an expert in running shoe technology, told AFP.

"We definitely don't hear of people calling for the shoes to be banned so much anymore."

US-based journalist Brian Metzler, author of "Kicksology: The Hype, Science, Culture and Cool of Running Shoes", said there was a broader acceptance, largely because "all brands have caught up to Nike and because there is a greater understanding of how the school technology works".

"The key factors in acceptance are making sure there is a fair playing field and also the notion that there is no additional energy being created by the shoes, but instead a greater return of energy from the force the runner is applying with each stride," Metzler told AFP.

Athletes, added Amby Burfoot, winner of the 1968 Boston marathon and a former editor-in-chief of Runner's World magazine, "only care about running fast, and they have realised they must wear new shoes—from whatever company—if they are to keep up with the competition".

He said: "I doubt the general public cares very much about the shoes, or understands them. That leaves only the sports historians and sports statisticians to debate what they should do about the fast new performances."

'A real time difference'

The technology, which exists in 'flat' running shoes and in spikes, is approved by track and field's governing body, World Athletics, albeit with parameters set on foam thickness, among other things.

The designs "have proven that they allow a runner to be more efficient and that's a big change, especially from 800m to 10,000m," said Metzler.

"Some athletes have told me that the new spikes can provide a five to 15-second boost in the 5,000m, so that's a real time difference."


Ethiopian athlete Letesenbet Gidey has set 5000m and 10,000m world records in the shoes.



Burns said time was needed to understand the rarity of a performance, saying the sport was "still adapting to the faster times".

Letesenbet Gidey of Ethiopia was wearing the shoes when she broke the women's 10,000m world record in June. Her time of 29min 1.03sec sliced over a minute off her previous best.

And Ugandan Joshua Cheptegei used the shoes to set the men's 5,000m world record of 12:35.36 last year.

"The way the fast performances in the distance and mid-distance races are celebrated by fans, announcers and the media is still likely overdone for their respective importance," said Burns.

"That is, the sport still hasn't completely re-calibrated what's good and what's great. That will take a bit more time and more racing.

"I suspect by the end of next year, we'll be close, and by two years from now, we'll have a good feeling of what's truly an exceptional performance in the new era."

The more advanced technology is, Burns continued, the more it invites "complexity in the sport, for the athletes, fans and governing bodies."

Metzler added: "With running events, the die has been cast and we're already at a place where the new shoes have elevated human performance.

"Mostly that's a good thing, I think, but we must realise that a sub-13 minute 5,000m (for men) today is not the same as it was in the era of David Moorcroft, Said Aouita or Bob Kennedy" in past decades.

Burns feels however there will "probably not" be world records in Tokyo.

"The spikes and shoes right now are predominantly beneficial in the distance races, and distance records are rarely set in championships, as they're often tactical."

Burfoot agreed: "The Olympics are about winning and losing.

"World records are more likely to happen in one-day events under optimal conditions."

All three experts agreed many top athletes had not seen their form dip during the Covid-19 pandemic, saying many had benefitted from the extra rest and training.

"Athletes are healthy, ready, eager, and wearing super shoes!" said Burfoot.



Recommend this post and follow
Sputnik's Orbit





Posted by speedy Chuck

SPACE - S0 - 20210728 - Solar Eruptions, Rock Art Anomaly, LLSVP, Super Flare Star

SPACE - S0 - 20210728 - Solar Eruptions, Rock Art Anomaly, LLSVP, Super Flare Star

Good Morning, 0bservers!

    
     
Well, we waited and we saw. Looks like that coronal hole stream finally arrived, because after a mostly calm day in solar wind speeds (300-340 KPS) we saw a jump to 400 KPS around 0130 and another peak to nearly 460 KPS by 0700 UTC. It seems to have calmed back down to around 400 KPS as of 1000 UTC. Particle Density started rising after midnight UTC as well, with a drop just preceding the increase in wind speeds. Expect another similar "hit" from that CME yesterday coming in the next 36-72 hours. The Temperature chart was getting up there, though, riding the 4000°K line most of yesterday before peaking out around 5400°K around 0800 UTC. The Phi Angle was still a mess most of yesterday, but it got really scrambled after midnight UTC, right before suddenly "almost" stabilizing around 0200. Whereas the Bt/Bz polarity collisions were prominent as were the variances starting around 2200 UTC. Surprisingly, the most we got off the KP-Index was a KP-4 (yellow, minor geomagnetic storm) around 0300, with the next two readings dropping down a notch back into the green. The Magnetometer tracked a high/low sine wave but we're still in nominal territory. The same is true for the Proton Flux and Electron Flux levels, and they seem to have "fixed" the gap in the latter from yesterday's report. The X-Ray Flux was certainly busier than the last few days, with a couple of flares in the upper Class B levels at 1900 UTC and 0800 UTC, and one hitting the Class C line around 2245 UTC. Caught that last one on the video loops at 131Å and 304Å, which is why I was able to hit the timestamp so closely. The Magnetogram shows a lot of complexity (not to mention spread and size) in the Southern sunspot group currently crossing the center, but the Northern sunspot group still approaching the midpoint is a lot more dispersed. The departing sunspot in the North is almost linear (at least the negative magnetic component) but the leading positive edge is more of what you'd expect.
  
Please Recommend this page and be sure to follow the Sputnik's Orbit 


AND WHILST YOU ARE HERE BE SURE TO FOLLOW AND RECOMMEND THE THANK GOODNESS ITS OWEN FRIDAY BLOGSPOT! https://tgiof.blogspot.com/

Defense News: Israel Shipyards unveils Themistocles-class corvette, aiming for Greek Navy contract

 

Israel Shipyards unveils Themistocles-class corvette, aiming for Greek Navy contract


The vessel with anti-submarine warfare and air defense capabilities is 79 meters long and 11 meters wide, with a top speed of 30 knots and a range of 2,500 nautical miles

By Eyal Boguslavsky, Israel Defense, 07/26/2021

Israel Shipyards Themistocles-class corvette 

Israel Shipyards introduced its Themistocles-class corvette at the DEFEA 2021 exhibition that took place in Athens in the middle of this month. The corvette is a multipurpose vessel with anti-submarine warfare and air defense capabilities based on the Israeli Navy's Reshef-class corvette, also known as the Sa'ar S-72, which will replace the Navy's Sa'ar 4.5-class missile boats in the coming years.

The Sa'ar S-72 is 72 meters long with a displacement of about 800 tons and a top speed of over 30 knots. It can be used as a platform for naval helicopters and the deployment of Special Forces units. The ship is designed to perform a wide range of missions including patrol and surveillance, naval combat, anti-crime as well as search and rescue operations.


https://themistoclescorvette.com/themistocles-corvette/


The Naval News website said that initially the Sa'ar S-72 was offered to the Hellenic Navy, but the Navy made clear that it would need a bigger version offered by Israeli Shipyards and its Greek partner, Onex Neorion Shipyards. To meet the Hellenic requirements, the two companies offered the longer and wider Themistocles-class vessel.

The Themistocles is 79 meters long and 11 meters wide with a planned draft (the vertical distance between the waterline and the bottom of the hull) of over three meters. The corvette is expected to weigh 950 tons, reach a top speed of 30 knots and have a range of 2,500 nautical miles at a speed of 15 knots via four diesel engines.

Israel SAAR S72 Corvette, Dec 18, 2020


The website noted that even though the Hellenic Navy is currently focused on its frigate replacement program, Israeli Shipyards hopes to make a good impression by taking the lead with its offer. The company is also confident it can compete against the European Patrol Corvette (EPC) program, which Greece joined in January 2020.

Naval News quoted Oded Breier, V.P. Marketing for Israel Shipyards, as saying "I know the Hellenic Navy is very busy now with their frigates replacement program and probably once they will finish, the next project will be the corvettes and the Themistocles-class is the one of our choice. Discussions are in progress, and we believe that it’s going through very nicely."


Tuesday, July 27, 2021

Scientists discover how high-energy electrons strengthen magnetic fields

JULY 26, 2021, by Ali Sundermier, SLAC National Accelerator Laboratory

The motion of electrons carries an electrical current, which produces magnetic fields. Usually, charges from background plasma interfere with this current by moving in a way to cancel it, making strong magnetic fields difficult to produce. A team of scientists from the Department of Energy’s SLAC National Accelerator Laboratory found that high-energy electrons can actually expel the background plasma to create a hole, making it harder for the plasma to cancel their current, and greatly intensifying the magnetic fields. 
Credit: SLAC National Accelerator Laboratory

More than 99% of the visible universe exists in a superheated state known as plasma—an ionized gas of electrons and ions. The motion of these charged particles produces magnetic fields that form an interstellar magnetic web. These magnetic fields are important for a wide range of processes, from the shaping of galaxies and the formation of stars to controlling the motion and acceleration of high-energy particles like cosmic rays—protons and electrons that zoom through the universe at nearly the speed of light.

In previous research, scientists found that in regions where high-energy electrons are produced, magnetic fields are intensified. But until now, the way energetic particles affect magnetic fields was not well understood. In a paper published on the cover of Physical Review Letters in May, researchers from the Department of Energy's SLAC National Accelerator Laboratory show how electrons can amplify magnetic fields to much higher intensities than were previously known.

The motion of electrons carries an electrical current, which produces magnetic fields. Usually, charges from background plasma interfere with this current by moving in a way to cancel it, making strong magnetic fields difficult to produce. Using numerical simulations and theoretical models, the researchers found that high-energy electrons can actually expel the background plasma to create a hole, making it harder for the plasma to cancel their current.

"As the current is exposed, strong magnetic fields are produced that further push the background plasma away, creating bigger holes, leaving more of the current exposed, and producing even stronger magnetic fields," says Ryan Peterson, a Ph.D. student at Stanford University and SLAC who is the first author of the publication. "Eventually, these magnetic fields become so strong that they bend the electrons and slow them down."

This process could potentially be at play in the brightest and most energetic electromagnetic events in the universe: extreme explosions known as gamma ray bursts. Observations suggest that magnetic fields must be significantly amplified by energetic particles to produce the observed radiation but, until now, the way the field is intensified has been a mystery.

"Every time a new fundamental process is identified, it can have important consequences and applications in different areas of research," says Frederico Fiuza, a scientist who worked on this research and leads the high energy density science theory group at SLAC. "In this case, the amplification of magnetic field by high-energy electrons is known to be important not only for extreme astrophysical environments, such as the gamma-ray bursts, but also for laboratory applications based on electron beams."

The researchers are currently working on new simulations to better understand the role that this process can play in gamma-ray bursts. They also hope to find ways to reproduce it in a laboratory experiment, which would be an important step in developing compact high-energy radiation sources. Those sources would allow scientists to take pictures of matter on the atomic scale with extremely high resolution for applications in medicine, biology and materials research.


Recommend this post and follow 
Sputnik's Orbit




Posted by Chuck gnome