Thursday, October 31, 2019

System provides cooling with no electricity

OCTOBER 30, 2019, by David Chandler, Massachusetts Institute of Technology

In the photo on the left, a disk of the new insulating material blocks and reflects visible light, hiding the MIT logo beneath it. But seen in infrared light, at right, the material is transparent and the logo is visible. Credit: Arny Leroy, Evelyn Wang, et. al

Imagine a device that can sit outside under blazing sunlight on a clear day, and without using any power cool things down by more than 23 degrees Fahrenheit (13 degrees Celsius). It almost sounds like magic, but a new system designed by researchers at MIT and in Chile can do exactly that.

The device, which has no moving parts, works by a process called radiative cooling. It blocks incoming sunlight to keep from heating it up, and at the same time efficiently radiates infrared light—which is essentially heat—that passes straight out into the sky and into space, cooling the device significantly below the ambient air temperature.

The key to the functioning of this simple, inexpensive system is a special kind of insulation, made of a polyethylene foam called an aerogel. This lightweight material, which looks and feels a bit like marshmallow, blocks and reflects the visible rays of sunlight so that they don't penetrate through it. But it's highly transparent to the infrared rays that carry heat, allowing them to pass freely outward.

The new system is described today in a paper in the journal Science Advances, by MIT graduate student Arny Leroy, professor of mechanical engineering and department head Evelyn Wang, and seven others at MIT and at the Pontifical Catholic University of Chile.

Such a system could be used, for example, as a way to keep vegetables and fruit from spoiling, potentially doubling the time the produce could remain fresh, in remote places where reliable power for refrigeration is not available, Leroy explains.

Minimizing heat gain
Radiative cooling is simply the main process that most hot objects use to cool down. They emit midrange infrared radiation, which carries the heat energy from the object straight off into space because air is highly transparent to infrared light.

The new device is based on a concept that Wang and others demonstrated a year ago, which also used radiative cooling but employed a physical barrier, a narrow strip of metal, to shade the device from direct sunlight to prevent it from heating up. That device worked, but it provided less than half the amount of cooling power that the new system achieves because of its highly efficient insulating layer.

"The big problem was insulation," Leroy explains. The biggest input of heat preventing the earlier device from achieving deeper cooling was from the heat of the surrounding air. "How do you keep the surface cold while still allowing it to radiate?" he wondered. The problem is that almost all insulating materials are also very good at blocking infrared light and so would interfere with the radiative cooling effect.

There has been a lot of research on ways to minimize heat loss, says Wang, who is the Gail E. Kendall Professor of Mechanical Engineering. But this is a different issue that has received much less attention: how to minimize heat gain. "It's a very difficult problem," she says.

In field tests, the performance of the radiative cooling device was measured under full sunlight, both with the insulating material in place (left) and without it (right). Credit: Massachusetts Institute of Technology

The solution came through the development of a new kind of aerogel. Aerogels are lightweight materials that consist mostly of air and provide very good thermal insulation, with a structure made up of microscopic foam-like formations of some material. The team's new insight was to make an aerogel out of polyethylene, the material used in many plastic bags. The result is a soft, squishy, white material that's so lightweight that a given volume weighs just 1/50 as much as water.

The key to its success is that while it blocks more than 90 percent of incoming sunlight, thus protecting the surface below from heating, it is very transparent to infrared light, allowing about 80 percent of the heat rays to pass freely outward. "We were very excited when we saw this material," Leroy says.

The result is that it can dramatically cool down a plate, made of a material such as metal or ceramic, placed below the insulating layer, which is referred to as an emitter. That plate could then cool a container connected to it, or cool liquid passing through coils in contact with it, to provide cooling for produce or air or water.

Putting the device to the test

To test their predictions of its effectiveness, the team along with their Chilean collaborators set up a proof-of-concept device in Chile's Atacama desert, parts of which are the driest land on Earth. They receive virtually no rainfall, yet, being right on the equator, they receive blazing sunlight that could put the device to a real test. The device achieved a cooling of 13 degrees Celsius under full sunlight at solar noon. Similar tests on MIT's campus in Cambridge, Massachusetts, achieved just under 10 degrees cooling.

That's enough cooling to make a significant difference in preserving produce in remote locations, the researchers say. In addition, it could be used to provide an initial cooling stage for electric refrigeration, thus minimizing the load on those systems to allow them to operate more efficiently with less power.

Theoretically, such a device could achieve a temperature reduction of as much as 50 C, the researchers say, so they are continuing to work on ways of further optimizing the system so that it could be expanded to other cooling applications such as building air conditioning without the need for any source of power. Radiative cooling has already been integrated with some existing air conditioning systems to improve their efficiency.

Already, though, they have achieved a greater amount of cooling under direct sunlight than any other passive, radiative system other than those that use a vacuum system for insulation—which is very effective but also heavy, expensive, and fragile.

This approach could also be a low-cost add-on to any other kind of cooling system, providing additional cooling to supplement a more conventional system. "Whatever system you have," Leroy says, "put the aerogel on it, and you'll get much better performance."

Peter Bermel, an associate professor of electrical and computer engineering at Purdue University, who was not involved in this work, says, "The main potential benefit of the polyethylene aerogel presented here may be its relative compactness and simplicity, compared to a number of prior experiments."

He adds, "It might be helpful to quantitatively compare and contrast this method with some alternatives, such as polyethylene films and angle-selective blocking in terms of performance (e.g., temperature change), cost, and weight per unit area. … The practical benefit could be significant if the comparison were performed and the cost/benefit tradeoff significantly favored these aerogels."


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SPACE - S0 - 20191031 - 1st Modern Arc Crater, Earthquake, Magnetic Plasma

SPACE - S0 - 20191031 - 1st Modern Arc Crater, Earthquake, Magnetic Plasma


Good Morning, Observers!





Equatorial bright spot still lacks any magnetic cohesiveness, so no sunspot risk there as yet. Coronal hole departure is complete, and there doesn't look like there are any big ones incoming, but we did take an increase in the solar wind speeds overnight, currently just below 420 KPS. The Phi-angle also seems to be shifting a bit at the moment, and we did have a jump to KP-4 on the geomagnetic impact overnight, but that then dropped to a KP-1 and then KP-0 at the next two readings. There was another Mag 6.5 in the Philippines a little while ago, depth uncertain (the map shows 10 KM, but that's the "default" depth until they get the actual readings later). Still no 7+ quakes, but the warning map has some potential tight locations, so keep an eye on it. The video also shows a rather humongous lightning strike which created a crater in a parking lot in Fort Worth. That was a massive electrical discharge, I wouldn't be surprised if it cause that gamma ray spike shown in the charts. 

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Wednesday, October 30, 2019

Scientists struggle to access Africa's historical climate data

Nature NEWS, 24 OCTOBER 2019, Linda Nordling
https://www.nature.com/articles/d41586-019-03202-2

Better climate predictions require Africa’s weather agencies to open their archives. But commercial concerns and a lack of trust are holding them back.

Historical climate records are helping to produce more accurate climate predictions such as the extent of rainfall in Mali (pictured). Credit: Timothy Allen/Getty

For principal meteorologist Grieffy John Stegling, the storerooms at Botswana’s national weather service headquarters in Gaborone hold a rare treasure: floor-to-ceiling shelves containing boxes of old notebooks with carefully recorded weather observations going back more than a century.

Such records offer clues not only to the country’s past, but also to the future of its climate. Like most African countries, Botswana is ill served by global climate models because predictions are based on patchy records of key variables such as temperature, humidity and atmospheric pressure1.

“Historical climate data over Africa are very valuable for understanding climate variability and trends,” says Chris Taylor, a meteorologist at the Centre for Ecology and Hydrology in Wallingford, UK, who studies African climate trends.

In 2017, Taylor and his team found that climate change will increase extreme rainfall in the Sahel, a semiarid region south of the Sahara desert2. A crucial part of their study involved cobbling together historical records — some of them “locked away in cupboards” — from different national weather services, Taylor says. “Having a historical baseline is a prerequisite for understanding how intense rainfall is changing,” he says.

Since 2015, the World Meteorological Organization in Geneva, Switzerland, and Germany’s weather service, Wetterdienst, have provided training and equipment to help Botswana digitize and share its historical climate data. But because there are no dedicated staff members, progress has been slow. Of 2 million records, only 100,000 have been processed. “If we had more manpower, it would go much faster,” Stegling says.

Cash for access
Whereas Botswana is making some progress, in other meteorological offices across Africa, millions of records are mouldering in cardboard boxes or languishing on obsolete technology. Digitization efforts have been held up because of concerns that giving researchers free access to the data will prevent such offices from making money by selling the information to individuals and companies.

The South African Weather Service (SAWS) has turned down offers by the International Data Rescue (I-DARE) project to help to digitize historical climate data because the agency wants to be able to sell its data. “If unrestricted access to the National Climatological Databank, of which SAWS is the custodian, is allowed, SAWS might not be able to deliver on its commercial mandate,” a spokesperson told Nature.

Similar concerns are holding up the digitization of 2 million surface observations — including temperature, rainfall and humidity — from 48 African countries. Those data are stored at the African Centre of Meteorological Applications for Development (ACMAD) in Niamey, Niger.

“The private sector is progressively being involved in climate services delivery,” says ACMAD director-general Andre Kamga Foamouhoue, and this sometimes creates conflicts of interest with government agencies looking to commercialize data. This is one reason why some African meteorological offices don’t allow files to be shared with projects that rely on citizen science volunteers to digitize the data.

Many of the data-rescue requests come from initiatives led by individuals or institutions from Europe or the United States, says Jane Olwoch, executive director of the Southern African Science Service Centre for Climate and Land Management, a regional climate research centre located in Windhoek, Namibia. And that can be a problem because institutions in African countries aren’t sure how they will benefit if the data expertise comes from outside the continent.

“The trust has been broken when international researchers come here and take the data and just go back,” says Olwoch. She hopes that data-rescue efforts fronted by her own organization, in Angola and Botswana, will be viewed with less suspicion because the organization is backed by four southern African governments and has local headquarters and staff, even though much of the funding comes from the government of Germany.

Recovering old records

Not all of Africa’s climate records are in Africa, however. Many of the oldest ones were collected by professional and amateur meteorologists who came to Africa from Europe during colonial times. Stefan Grab, a geographer at the University of the Witwatersrand in Johannesburg, South Africa, says that these records can, paradoxically, be easier to access than local ones.

South Africa has the Southern Hemisphere’s longest uninterrupted weather observations, recorded at the astronomical observatory in Cape Town. It was thought that these data stretched back to 1841, but Grab, who leads South Africa’s data-rescue efforts, knew that astronomers had been in the Cape since the 1830s. So he contacted staff at the Royal Greenwich Observatory in London, who directed him to the archives at the University of Cambridge, UK. “Lo and behold, they found the earliest records, which go back to 1834,” he says.

ACMAD’s Kamga Foamouhoue says that weather agencies must be persuaded that there are benefits to mining historical data and then sharing these with other scientists — and that the biggest benefit is that it will lead to more accurate climate predictions.

“Anything that’s really old, like from the nineteenth century, is extremely valuable,” Grab emphasizes. “It’s worth far more than gold and diamonds.”


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Space - Hubble Telescope spots ‘ghostly face’ in colliding galaxies

Hubble Telescope spots ‘ghostly face’ in colliding galaxies



By Chris Ciaccia, Fox News, October 29, 2019

This new image from the NASA/ESA Hubble Space Telescope captures two galaxies of equal size in a collision that appear to resemble a ghostly face. NASA/ESA Hubble Space Telescope

It’s creepy and it’s kooky. And maybe even a little mysterious and spooky.
The Hubble Telescope has spotted two galaxies colliding, creating “a ghostly face” in space.
The powerful space telescope, operated by NASA, the European Space Agency and Space Telescope Science Institute, took the remarkable image of the Arp-Madore 2026-424 (AM 2026-424) system, 704 million light-years from Earth.
“The crash has pulled and stretched the galaxies’ discs of gas, dust, and stars outward, forming the ring of intense star formation that shapes the ‘nose’ and ‘face’ features of the system,” the ESA wrote in a statement on its website.
The agency continued: “Ring galaxies are rare, and only a few hundred of them reside in our larger cosmic neighborhood. The galaxies have to collide at just the right orientation so that they interact to create the ring, and before long they will have merged completely, hiding their messy past.”
The ESA added that the side-by-side juxtaposition of the two central bulges of the stars is unusual. Given that they’re approximately the same size, it’s like that the galaxies were also the same size prior to the crash.
“This is different from the more common collisions in which small galaxies are gobbled up by their larger neighbors,” the ESA said.
It’s believed that the ring will last for approximately 100 million years, to be followed by the galaxies merging in 1 billion to 2 billion years, the Daily Mail reported.
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SPACE - S0 - 20191030 - Sun, Cold Records, Deep Signals Before MegaQuakes

SPACE - S0 - 20191030 - Sun, Cold Records, Deep Signals Before MegaQuakes


Good Morning, Observers!




More dancing prominences on the NorthWest lim departing. The bright active region on the solar equator is still sans sunspots, but stay tuned because that can change during its transit. The coronal hole is finally exiting, and the solar wind speed has been lackluster, now hovering around 380 KPS. The electric current sheet (Phi-angle) seems to remain stable, and geomagnetic activity is in the calm (KP-1 to KP-2) levels. Still no Mag 7 quakes at present, the drought continues and the risk factor of a "biggie" increases.


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Tuesday, October 29, 2019

Technology - Pentagon hands Microsoft $10B ‘war cloud’ deal, snubs Amazon

Pentagon hands Microsoft $10B ‘war cloud’ deal, snubs Amazon


By Associated Press,  October 28, 2019

Microsoft CEO Satya Nadella,  Getty Images

The Pentagon awarded Microsoft a $10 billion cloud computing contract, snubbing early front-runner Amazon, whose competitive bid drew criticism from President Donald Trump and its business rivals.
Bidding for the huge project, known as Joint Enterprise Defense Infrastructure, or JEDI, pitted leading tech titans Microsoft, Amazon, Oracle and IBM against one another.
The giant contract has attracted more attention than most, sparked by speculation early in the process that Amazon would be the sole winner of the deal. Tech giants Oracle and IBM pushed back with their own bids and also formally protested the bidding process last year.
Oracle later challenged the process in federal court, but lost.
Trump waded into the fray in July, saying that the administration would “take a very long look” at the process, saying he had heard complaints. Trump has frequently expressed his ire for Amazon and founder Jeff Bezos, who also owns the Washington Post. At the time, he said other companies told him that the contract “wasn’t competitively bid.”
Defense Secretary Mark Esper recused himself from the controversial bidding process earlier this week, citing a conflict of interest because his son works for one of the companies that originally bid.
The JEDI system will store and process vast amounts of classified data, allowing the US military to use artificial intelligence to speed up its war planning and fighting capabilities.
A cloud strategy document unveiled by the Defense Department last year called for replacing the military’s “disjointed and stove-piped information systems” with a commercial cloud service “that will empower the warfighter with data and is critical to maintaining our military’s technological advantage.”
The Pentagon emphasized in an announcement that the process was fair and followed procurement guidelines. It noted that over the past two years, it has awarded more than $11 billion in 10 separate cloud-computing contracts, and said the JEDI award “continues our strategy of a multi-vendor, multi-cloud environment.”
The latter statement appeared designed to address previous criticism about awarding such a large deal to one company.
The deal is a major win for Microsoft’s cloud business Azure, which has long been playing catch-up to Amazon’s market-leading Amazon Web Services. Microsoft said it was preparing a statement.
Amazon said Friday it was surprised by the decision.
“AWS is the clear leader in cloud computing, and a detailed assessment purely on the comparative offerings clearly lead to a different conclusion,” Amazon spokesman Drew Herdener said in a statement. “We remain deeply committed to continuing to innovate for the new digital battlefield where security, efficiency, resiliency, and scalability of resources can be the difference between success and failure.”
According to a July report from the research firm Gartner, Amazon holds almost 48 percent of the market for public cloud computing, followed by Microsoft in second place with close to 16 percent.
Over the last year, Microsoft has positioned itself as a friend of the US military. President Brad Smith wrote last fall that Microsoft has long supplied technology to the military and would continue to do so, despite pushback from employees.
Oracle and IBM were eliminated earlier in the process, leaving Microsoft and Amazon to battle it out at the end.
Google decided last year not to compete for the contract, saying it would conflict with its AI ethics principles. Google employees have been especially vocal in protesting the company’s involvement with government contracts.
“It’s a paradigm changer for Microsoft to win JEDI,” said Dan Ives, managing director of Wedbush Securities. “And it’s a huge black eye for Amazon and Bezos.”
Microsoft, Amazon, Google and other tech giants have faced criticism from their own employees about doing business with the government, especially on military and immigration-related projects.
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Space - The US Air Force’s X-37B spaceplane lands after spending two years in space

The US Air Force’s X-37B spaceplane lands after spending two years in space

By Valerie Insinna,  Defense News,  October 28, 2019

The U.S. Air Force’s X-37B Orbital Test Vehicle Mission 5 concluded when it landed at NASA’s Kennedy Space Center Shuttle Landing Facility in Florida on Oct. 27, 2019. (Jeremy Webster/ U.S. Air Force)

WASHINGTON — In the early morning hours of Oct. 27, the U.S. Air Force’s X-37B spaceplane landed at NASA’s Kennedy Space Center in Florida after a record-breaking 780 days in orbit.
What was the Boeing-made plane doing in space for the two years it spent circling Earth? On that point, the Air Force is characteristically elusive, describing the X-37B’s activities as “on-orbit experiments” in a news release.
“The X-37B continues to demonstrate the importance of a reusable spaceplane,” Air Force Secretary Barbara Barrett said. “Each successive mission advances our nation’s space capabilities.”
According to the Air Force, the unmanned spaceplane is unique because it allows scientists to test experimental technologies in space for long periods of time.
One of those technologies confirmed to be on board the X-37B is the Advanced Structurally Embedded Thermal Spreader, or ASETS-11, created by the Air Force Research Laboratory to “test experimental electronics and oscillating heat pipes in the long duration space environment,” the service said in 2017.
“This program continues to push the envelope as the world’s only reusable space vehicle. With a successful landing today, the X-37B completed its longest flight to date and successfully completed all mission objectives,” said Randy Walden, head of the Air Force Rapid Capabilities Office. “This mission successfully hosted Air Force Research Laboratory experiments, among others, as well as providing a ride for small satellites.”
X-37B Orbital Test Vehicle Mission 5 ended at 3:51 a.m. after the spaceplane landed on the runway of Kennedy’s shuttle landing facility on Sunday. That mission began Sept. 7, 2017, when the X-37B took off from Cape Canaveral Air Force Station, Florida, on board a SpaceX Falcon 9 rocket — marking the first launch of the X-37B by Elon Musk’s space company.
So far, the X-37B has spent 2,865 days on orbit cumulatively over its five missions, with four of those missions extending past the 270-day on-orbit duration requirement to which the plane was designed.
The Air Force plans to launch a sixth mission in 2020 out of Cape Canaveral.
The service has two X-37Bs, which Walden characterized as “workhorses” during a Oct. 24 event, according to Breaking Defense. When asked whether the Air Force should buy additional spacecraft or execute a follow-on order, Walden was noncommittal.
“The data is still out,” he said, adding that the two existing X-37Bs are “doing quite well.”
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SPACE - S0 - 20191029 - New Planet, Sun Mystery, Weather Modification

SPACE - S0 - 20191029 - New Planet, Sun Mystery, Weather Modification

Good Morning, Observers!



Bright active region coming in, still no underlying sunspots. Some filament activity coming in at the SouthEast lim, pretty but no risk to Earth. The coronal hole has finally passed the meridian, expect the solar wind stream in the next day or so. A minor hole is coming to the midpoint, just North of the equator, but it doesn't look like it holds any real size or strength. Plasma stream is pretty smooth, down to around 400 KPS. Large quake hit the Philippines, a 6.6 (so still no 7), and only 15 KM deep, so there was some serious surface damage and sadly a few deaths (will probably be more). Phi-angle seems to have stabilized to the midpoint, and KP indexes are remaining stable to slightly lower than yesterday.


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Defense - Turkey, Russia in negotiations for potential Su-35 jet deal

Turkey, Russia in negotiations for potential Su-35 jet deal


By Burak Ege Bekdil ,  Defense News,  October 28, 2019

A Russian Sukhoi Su-35  fighter bomber lands at the Russian Hmeimim military base in Latakia province, northwest Syria, on May 4, 2016. (Vasily Maximov/AFP via Getty Images)

ANKARA, Turkey — Turkish and Russian government officials are in an “advanced stage of negotiations” to finalize a potential deal on Russian-made Su-35 fighter aircraft, Turkish officials said.
“The talks have quite matured,” a senior Turkish procurement official told Defense News on the condition of anonymity. “A deal does not appear to be too distant.”
If penned, an Su-35 deal will be Turkey’s second major purchase of weapons systems from Russia. Unnerving its NATO allies, Turkey acquired the Russian-made S-400 long-range air defense system. The S-400s were delivered to the Turkish military in August.
The Turkish official said that although the final numbers may change during the negotiating process, Turkey could buy two squadrons (a batch of 48) Su-35s.
An aerospace industry specialist in Ankara said Moscow would probably price the fighter aircraft between $50 million and $70 million. “The potential Su-35 deal has strategic value for the Russians,” he said.
“Moscow may thus agree to give Ankara a favorable price reminiscent of the S-400 deal,” he added. Turkey agreed to pay $2.5 billion for two S-400 systems. The contract came with an international loan.
After Turkey finalized its S-400 deal with Russia, the U.S. suspended Turkey’s partnership in the American-led, multinational Joint Strike Fighter consortium that builds the F-35 Lightening II fighter jet.
Meanwhile, Turkey is struggling to design and develop its first indigenous fighter jet. Turkish officials originally hoped to fly the “national fighter jet” in 2023, but industry sources say this is an unrealistic target.
A government official said any Su-35 deal would be an off-the-shelf purchase. “All the same, we would expect our Russian partners to assist our fighter jet program with some technology transfer,” he said.
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Monday, October 28, 2019

Defense - Submarines are poised to take on a major role in strike warfare, but is that a good idea?

Submarines are poised to take on a major role in strike warfare, but is that a good idea?


By David B. Larter,  Defense News,  28 October 2019

The Virginia-class fast-attack submarine Texas off the coast of Ketchikan, Alaska. (Kelley Stirling/U.S. Navy)

WASHINGTON — The U.S. Navy is preparing to ink one of the largest contracts in its history with General Dynamics Electric Boat and the firm’s partner shipyard Huntington Ingalls Industries Newport News that will make the new generation of attack submarines a major force in strike warfare.
The Block V Virginia contract is expected to produce 11 boats with eight Virginia Payload Modules, and will triple the Virginia’s Tomahawk Land Attack Missile capacity to 40 missiles per hull. Experts say that the new Virginia Payload Module will also be large enough to accommodate boost-glide hypersonic missiles like those the Navy is developing with the Army.
But the logic for the Virginia Payload Module has always been about replacing the Ohio-class guided missile submarines retiring in the 2020s. Because submarines have been the Navy’s go-to asset to penetrate areas threated by Chinese and Russian surface-to-surface and anti-ship missiles, attack submarines loaded with strike missiles would have to be the ones to get close enough to be able to launch land-attack strikes.
That model upends decades of the surface Navy’s supremacy in the world of strike warfare from the sea, but experts are beginning to question the logic of giving the strike warfare mission to submariners in an era of great power competition. With Russia and, to an even greater extent, China investing heavily in anti-submarine technology, does it make sense to give a stealthy asset a mission that will blow its cover?
Bryan Clark, a retired submariner and senior fellow at the Center for Strategic and Budgetary Assessments, wonders if the surface fleet is the best place inside the force to house the strike mission.
“I think the requirement may be changing,” he said in an Oct. 22 phone call with Defense News. “Over the past 10 years there has been a real emphasis on the submarine as the one tool we have that may be able to get into contested areas — the East and South China seas, up in the north Atlantic, etc.
“That’s changing now: These countries are investing in their own anti-submarine warfare systems. China has put a lot of money into ASW systems, they are installing surveillance systems akin to our SOSUS [sound surveillance system]. So the idea that our submarines are our go-to asset to gain access, that may not be true in the next few years as it was in the past 10, so there is a question as to whether we should be investing in submarines to maintain the undersea strike capacity.”
‘Increasingly vulnerable’
The issue is not just that submarines run the risk of being detected, which is an ever-present risk anytime a submarine leaves the pier, but that it won’t be able to create the volume of fires that the surface fleet could, especially with new concepts in development such as a large unmanned surface vessel that could act as a kind of arsenal ship.
“The surface fleet is likely going to be our best strike capacity asset in the next decade,” Clark said. “Submarines are going to be increasingly vulnerable, so the question becomes: Do I want to take my [Virginia Payload Module]-equipped SSN, put it inside the South China Sea to launch strikes, get counter-detected and harassed for days afterward? I lose it from the fight for a long time just evading attacks.
“Whereas if you used unmanned surface vessel[s], those can launch just as many cruise missiles as a Virginia class, many times cheaper; they can rotate, get reloaded and just keep launching strikes at a much higher rate of fire as you would ever get out of the SSN force.”
Jerry Hendrix, a retired naval flight officer and analyst with The Telemus Group, agreed that the surface fleet is likely going to be the place to house a strike capability, especially in the era of mass hypersonic fires, because of the cost it would impose on the U.S. to try to match Chinese capabilities on subs.
“I think there is a powerful argument to distribute these weapons across the surface force,” Hendrix said. “If you can create a strike weapon that allows the surface force to stand outside of DF-21 and DF-26 range and shoot three-pointers from outside, then yes. To create mass and volume in the submerged force is twice to three times as expensive as it is to create that volume from the surface force.
“So there is a solid argument just from the standpoint of cost. If I was trying to create 2,000 tubes of hypersonics — which are much more massive than Tomahawks, wont fit into a Mark 41 vertical launch system and hence will have to go into a different configuration — to create that mass in the submerged force is going to be very expensive.”
The Navy is looking at back-fitting destroyers with larger vertical launching system tubes to accommodate so-called prompt-strike weapons, Defense News reported in June. But some analysts say the mission is better suited for a large unmanned surface vessel.
“I think this is going to one of the main things driving the design of the large unmanned surface combatant,” said Dan Gouré, an analyst at the Lexington Institute think tank. “We’re back to arsenal ship: long-range, park it into a surface action group of carrier strike group — kind of like a surface version of the SSGN.”
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Space - Sun 'smiles' like a Halloween pumpkin in NASA image

Sun 'smiles' like a Halloween pumpkin in NASA image

The space agency is inviting people to download the image to mark Halloween on Thursday.

Sky News,  Monday 28 October 2019

The brighter regions emit more light and energy. Pic: NASA

A mischievous-looking picture of the Sun "smiling" like a Halloween pumpkin has been tweeted by NASA.
The picture was snapped by the space agency's Solar Dynamics Observatory (SDO) satellite and shows the sun in ultraviolet light.
NASA says the resemblance to a jack-o'-lantern is caused by "active regions" which appear brighter because they emit more light and energy.
"This image blends together two sets of extreme ultraviolet wavelengths at 171 and 193 Angstroms, typically colorized in gold and yellow, to create a particularly Halloween-like appearance," says the space agency.
It was originally taken in October 2014 but NASA is encouraging users to download it in high resolution to mark Halloween on Thursday.
The 4.5m-high SDO satellite studies the Sun's influence on Earth and Near-Earth space, such as how solar activity is created and the space weather that follows.

A mischievous-looking picture of the Sun "smiling" like a Halloween pumpkin has been tweeted by NASA.
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SPACE - S0 - 20191028 - Snowy Moons, Record Weather, Plasma/Magnetic Dominance

SPACE - S0 - 20191028 - Snowy Moons, Record Weather, Plasma/Magnetic Dominance



Good Morning, Observers!






The southern coronal hole is hitting the midpoint, so expect increased geomagnetic activity starting in 24-48 hours. The previous coronal hole stream seems to be waning, geomagnetic instability is gone and we're back to around KP-3 levels, but that'll go up when the new stream arrives. Solar wind speeds are also down, currently around 480 KPS. The sunspot activity looks beautiful as it comes into greater view from the East, and it's right above the solar equator so it'll face us squarely. The good news at the moment is the photosphere images show a lack of magnetic complexity and size. No umbral cores showing yet either, but that can change. Eyes open, no fear...

Update!  Earth Disaster: Dzhanibekov Effect or... ?

My thanks to Chuck for reminding me about the video from last night. Was going to include it, and then had an attack of SESF (Sudden Effect Synaptic Flatulence). Here you go!


Update II (The Search For More Money): Looks like I'm not the only one suffering from that particular malady...



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