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Monthly Archives: October 2019
Quantum computers: why Google, NASA and others are putting their chips on these dream machines – World Economic Forum
Posted: October 31, 2019 at 5:45 am
In 1936, Alan Turing proposed the Turing machine, which became the foundational reference point for theories about computing and computers. Around the same time, Konrad Zuse invented the Z1 computer, considered to be the first electromagnetic binary computer.
What happened next is history, and in our world today, computers are everywhere. Our lives are dramatically different from how they were even at the end of the 20th century, and our mobile phones have far more powerful CPUs than desktop computers did only few years ago. The advent of the Internet of Things brings computer power into every minute detail of our lives. The world wide web has had such a transformative effect on society that many people can't even remember a life before they were online.
The major catalyst behind this transformation was the discovery of silicon, and its use in the production of good transistors. This occurred over a period of more than 100 years, dating from when Michael Faraday first recorded the semiconductor effect in 1833, via Morris Tanenbaum, who built the first silicon transistor at Bell Labs in 1954, to the first integrated circuit in 1960.
We are about to embark on a similar journey in our quest for building the next-generation computer. Quantum physics, which emerged in the early 20th century, is so powerful and yet so unlike anything known before that even the inventors had a hard time understanding it in detail.
In the early 1980s, Richard Feynman, Paul Benioff and Yuri Manin provided the groundwork for a completely new paradigm of quantum computing, introducing the idea that quantum computing had the potential to solve problems that classical computing could not. And so quantum computing came into its own.
Peter Shor published an algorithm in 1994 capable of efficiently solving problems in cryptography that are hard to solve for classical computers that is, the vast majority of computers used today. In fact, Shor's algorithm continues to threaten the fundaments of most encryption deployed across the globe.
The problem was that, in 1994, there was no quantum computer in sight. In 1997, the first tiny quantum computer was built, but the field really took off only when the Canadian startup D-Wave revealed its 28-qubit quantum computer in 2007.
Similar to the trajectory of non-quantum communication, which took more than 100 years from discovery to mass use, quantum computers are now maturing very quickly. Today, many players are engaged in a battle over who can build the first powerful quantum computer. These include commercial entities such as IonQ, Rigetti, IBM, Google, Alibaba, Microsoft and Intel, while virtually all major nation states are spending billions of dollars on quantum computing development and research.
Quantum computers are powerful yet so difficult to build that whoever can crack the code will have a lasting powerful advantage. This cannot be understated. Heres a striking example of the power of quantum computing.
Quantum leaps: growth over the years
Image: Statista
To break a widely used RSA 2048-bit encryption, a classical computer with one trillion operations per second would need around 300 trillion years. This is such a long time that we all feel very safe.
A quantum computer using Shor's algorithm could achieve the same feat in just 10 seconds, with a modest 1 million operations per second. That's the power of quantum computers: 300 trillion years versus 10 seconds.
Another reason why nation states pour so much money into the field is precisely because, with it being so difficult, any achievement will directly yield a lasting advantage.
So where are quantum computers today, and where are they headed?
Considering the immense challenges to building quantum computers, I'd say we are roughly where we were in around 1970 with classical computers. We have some quantum computers, but they are still pretty unreliable compared to today's standard. We call them NISQ devices - Noisy Intermediate-Scale Quantum devices. Noisy because they are pretty bad, and intermediate-scale because of their small qubit number. But they work. There are a few public quantum computers available for anyone to programme on. IBM, Rigetti, Google and IonQ all provide public access with open-source tools to real quantum computing hardware. IBM even sells a quantum computer that you can put in your own data centre (the IBM Q System One).
But these are not yet powerful enough to break RSA 2048-bit keys, and probably won't be for another 10 to 20 years.
The comparison date of 1970 works from another angle, too. In October 1969, researchers sent the first message over the internet (it was called ARPANET then). When they tried to send the one word "login", the system crashed after sending "l" and "o". It later recovered and the message was successfully sent.
Today, we are also building a quantum communication system that doesn't communicate bits and bytes, but quantum states that quantum computers can understand. This is important so that we can build up a quantum version of the internet.
D-Wave, NASA, Google and the Universities Space Research Association created the D-Wave 1,097-qubit quantum computer.
Image: Reuters/Stephen Lam
It is also important as a way of encrypting communication, since the quantum channel provides some inherent physical guarantees about a transmission. Without going into too much detail, there is a fundamental property whereby the simple act of wiretapping or listening into a communication will be made detectable to the parties communicating. Not because they have a fancy system setup, but because of fundamental properties of the quantum channel.
But quantum computers are not just useful for cryptography applications and communication. One of the most immediate applications is in machine-learning, where we are already today on the cusp of a quantum advantage meaning that the quantum algorithm will outperform any classical algorithm. It is believed that quantum advantage for machine-learning can be achieved within the next 6-12 months. The near-term applications for quantum computing are endless: cryptography, machine-learning, chemistry, optimization, communication and many more. And this is just the start, with research increasingly extending to other areas.
Google and NASA have just announced that they have achieved 'quantum supremacy'. That is the ability of quantum computers to perform certain tasks that a classical computer simply cannot do in a reasonable timeframe. Their quantum computer solved a problem in 200 seconds that would take the worlds fastest supercomputer 10,000 years.
The problem that was solved is without any practical merits or implications, yet it demonstrates the huge potential quantum computers have and the ability to unlock that potential in the coming years.
This opens up a completely new era where we can now focus on building quantum computers with practical benefits and while this will still be many years away, it will be the new frontier in computation.
License and Republishing
World Economic Forum articles may be republished in accordance with our Terms of Use.
Written by
Andreas Baumhof, Vice President Quantum Technologies, QuintessenceLabs
The views expressed in this article are those of the author alone and not the World Economic Forum.
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Other voices: Welcome to the age of Quantum computing – St. Paul Pioneer Press
Posted: at 5:45 am
Has the era of quantum computing finally dawned? In a field long plagued by hype and hubris, theres reason for some cautious optimism.
A team of scientists at Googles research lab announced last week in the journal Nature that they had built a quantum computer that could perform calculations in about 200 seconds that would take a classical supercomputer some 10,000 years to do. An age of quantum supremacy was duly declared.
Rather uncharitably, IBM researchers were quick to point out that the feat was less than advertised. They estimated that by using all of the hard disk space at the worlds most powerful classical computer, the Summit OLCF-4 at Oak Ridge National Laboratory, they could do the same calculation in 2.5 days, not 10,000 years. Googles claim to have achieved quantum supremacy that is, to have accomplished a task that traditional computers cant was premature.
This was to miss the bigger picture: A rudimentary quantum machine has improved on the fastest supercomputer ever built by a factor of 1,080 an immense achievement by any measure. Although the specific problem that Googles computer solved wont have much practical significance, simply getting the technology to work was a triumph; comparisons to the Wright brothers early flights arent far off the mark.
So is the world prepared for what comes next?
Quantum computers, to put it mildly, defy human intuition. They take advantage of the strange ways that matter behaves at the subatomic level to make calculations at extraordinary speed. In theory, they could one day lead to substantial advances in materials science, artificial intelligence, medicine, finance, communications, logistics and more. In all likelihood, no one has thought up the best uses for them yet.
They also pose some risks worth paying attention to. One is that the global race to master quantum computing is heating up, with unpredictable consequences. Last year, President Donald Trumps administration signed a $1.1 billion bill to prioritize the technology, which is a decent start. But the U.S. will need to do more to retain its global leadership. Congress should fund basic research at labs and universities, ensure the U.S. welcomes immigrants with relevant skills, invest in cutting-edge infrastructure, and use the governments vast leverage as a consumer to support promising quantum technologies.
A more distant worry is that advanced quantum computers could one day threaten the public-key cryptography that protects information across the digital world. Those systems are based on hard math problems that quantum computers might theoretically be able to crack with ease. Security researchers are well aware of the problem, and at work on creating post-quantum systems and standards. But vigilance and serious investment is nonetheless called for.
No doubt, the quantum-computing era will have its share of false starts, dashed hopes and fiendishly difficult problems to overcome. As Google is showing, though, thats how technology advances: bit by bit, into a very strange future.
Bloomberg Opinion
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Other voices: Welcome to the age of Quantum computing - St. Paul Pioneer Press
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Volkswagen : optimizing traffic flow with quantum computers – Quantaneo, the Quantum Computing Source
Posted: at 5:45 am
Volkswagen is launching in Lisbon the world's first pilot project for traffic optimization using a quantum computer. For this purpose, the Group is equipping MAN buses of the city of Lisbon with a traffic management system developed in-house. This system uses a D-Wave quantum computer and calculates the fastest route for each of the nine participating buses individually and almost in real-time. This way, passengers' travel times will be significantly reduced, even during peak traffic periods, and traffic flow will be improved. Volkswagen is testing its traffic optimization system during the WebSummit technology conference in Lisbon from November 4 to 8 - during the conference, buses will carry thousands of passengers through the city traffic in Lisbon.
Martin Hofmann, Volkswagen Group CIO, says: 'At Volkswagen, we want to further expand our expert knowledge in the field of quantum computing and to develop an in-depth understanding of the way this technology can be put to meaningful use within the company. Traffic optimization is one of the potential applications. Smart traffic management based on the performance capabilities of a quantum computer can provide effective support for cities and commuters.'
Vern Brownell, CEO of D-Wave, says: 'Volkswagen's use of quantum computing to tackle pervasive global problems like smart traffic management is an example of the real-world impact quantum applications will soon have on our cities, communities, and everyday lives. Since we built the first commercial quantum computer, D-Wave has been focused on designing systems that enable quantum application development and deliver business value. Volkswagen's pilot project is among the first that we know of to make production use of a quantum computer, and their ongoing innovation brings us closer than ever to realizing true, practical quantum computing.'
System includes two components: passenger number prediction and route optimization
The Volkswagen traffic management system includes two components - passenger number prediction and route optimization by quantum computing. For predictions, the development team from Volkswagen is using data analytics tools to identify stops with especially high passenger numbers at certain times. For this purpose, anonymized geo-coordinates and passenger flow data are used. The objective is to offer as many people as possible tailor-made transport possibilities and to ensure optimum utilization of the bus fleet.
For the pilot project in Lisbon, 26 stops were selected and connected to form four bus links. For example, one of these runs from the WebSummit conference facility to the Marqus de Pombal traffic node in the city center.
The Volkswagen team intends to continue the development of this prediction component. The idea is that bus operators should add temporary links to their scheduled services to serve stops with the largest passenger numbers. This would be a meaningful approach for major events in the city area, for example.
The Volkswagen experts have developed a quantum algorithm for route optimization between the stops. This algorithm calculates the fastest route for each individual bus in the fleet and optimizes it almost on a real-time basis. In contrast to conventional navigation services, the quantum algorithm assigns each bus an individual route. This way, each bus can drive around traffic bottlenecks along the route at an early stage and avoid traffic jams before they even arise.
The experts from Volkswagen expect this development to have a further positive effect. As the buses travel along individually optimized routes which are calculated to ensure that they can never cause congestion themselves, there will be a general improvement in traffic flow within the city.
Volkswagen intends to develop the system to market maturity
In the future, Volkswagen plans to develop its traffic optimization system to market maturity. For this reason, the Volkswagen developers have designed the system so that it can generally be applied to any city and to vehicle fleets of any size. Further pilot projects for cities in Germany and other European countries are already being considered. Volkswagen believes that such a traffic optimization system could be offered to public transport companies, taxi companies or fleet operators.
Volkswagen and quantum computing
Volkswagen is cooperating with its technology partners D-Wave and Google, who provide the experts with access to their computer systems. In 2016, the Volkswagen team already successfully demonstrated congestion-free route optimization for taxis in the Chinese capital Beijing. Since then, the development of the algorithm has been steadily continued and it has been protected by patents in the USA.
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The US just moved ahead of China in quantum computing – 10News
Posted: at 5:45 am
Sometimes being first isn't all it's cracked up to be.
Google raced past China this week in the quest for "quantum supremacy" with its claim that a machine developed by the company can solve a problem in 200 seconds that would take the world's fastest supercomputer 10,000 years.
But just as the Soviet Union was the first to put both a satellite and a human being into orbit, before going on to lose the space race, China may be poised to outstrip any American achievements in a specific field of quantum technology communication.
Beijing's gains in this area which could make its communications unhackable may leave US spies in the dark just as the US-China rivalry is heating up, a prospect that has led to great alarm in Washington.
Quantum supremacy
While Google's announcement has drawn skepticism from some of its rivals, and this would not be the first time a claim of "quantum supremacy" has been rebuffed , it nevertheless represents a clear step towards the rise of quantum computers.
"This is a hugely important milestone for the field," said Joe Fitzsimons, chief executive of Horizon Quantum Computing . "The Google result shows that for the first time there is a quantum processor that can do something that a conventional computer cannot do, or at least that a conventional computer cannot do without enormous effort."
In normal computers, data being processed exists in one state at a time a one, or a zero. Quantum computers , on the other hand, manipulate qubits, which can simultaneously be both a one and a zero, or any combination of the two. The difference means much faster processing speeds, and potentially solving problems and processing data that would take traditional machines millennia.
This will have applications well beyond physics and mathematics. Quantum computers could lead to breakthroughs in self-learning artificial intelligence (AI), provide medical insights by simulating incredibly complex biological molecules, and simultaneously break all existing cryptographic keys while setting the stage for uncrackable quantum encryption.
The last point is why many nation states led by the US and China have taken a strong interest in quantum computing. The first country to achieve quantum encryption could theoretically go completely "dark" to its rivals, hiding all its information from traditional digital surveillance methods. On the flip side, major gains in quantum computing could undo existing means of keeping data secret.
Quantum computers refer to supercomputers, like that built by Google, which use qubits to process huge amounts of data that would be beyond the capabilities of traditional machines. Quantum communication uses the nature of quantum particles to encrypt data in a way that it cannot be put under surveillance without warning the people being watched.
"Quantum computers are coming, and if it's going to be five, 10 or 15 years before we can decrypt any messages sent in the past, that definitely sends a chill down the spine of any security agency around the world," said Dimitris Angelakis , principal investigator at Singapore's Center for Quantum Technologies.
But while Google may have made an important step this week, the company is by no means alone in investing in quantum computing research, and the next major milestone an unambiguous demonstration of quantum advantage remains out of reach.
"Quantum advantage means demonstrating computational supremacy for a meaningful problem, showing that a quantum processor has been built which is more useful than a conventional computer for at least one problem," said Fitzsimons. "The path to large-scale quantum computing is more of a marathon than a sprint. The current result certainly places Google at the front of the pack, but there is still a long way to the finish line."
If Google is leading the pack, most of the runners clustered behind it are not fellow Silicon Valley companies, but their Chinese competitors and the country's well-funded research institutes.
Chinese qubits
In an influential paper last year for the Center for a New American Security, authors Elsa Kania and John Costello wrote that "China is positioning itself as a powerhouse in quantum science."
"At the highest levels, China's leaders recognize the strategic potential of quantum science and technology to enhance economic and military dimensions of national power," they argued. "These quantum ambitions are intertwined with China's national strategic objective to become a science and technology superpower."
For years now, China has been pouring billions of dollars into funding quantum research, with a particular focus on uncrackable encrypted communication, enabling it to dodge US surveillance.
The leading institution in this field is the University of Science and Technology of China (USTC), one of the country's most prestigious schools, based in Hefei near Shanghai. Chinese President Xi Jinping visited USTC in 2016, where he met with Pan Jianwei, the schools' vice president and China's " father of quantum ."
Pan is widely recognized as one of the foremost experts in this field, and was named as one of Nature's top ten people who mattered in science for 2017 , for having "lit a fire under the country's efforts in quantum technology."
UTSC has led efforts to build a China-wide quantum communications network , which would link Beijing, Shanghai, Guangzhou and five other cities via satellites and fiber-optic cables. In a presentation at a conference in Shanghai in August co-organized by the International Telecommunications Union (ITU), a United Nations body, Pan explained how quantum satellites could be used to provide "unconditional security" in transmitting data that would be unhackable and impervious to surveillance.
He also led the research team behind Micius, the world's first quantum satellite, launched by China in 2016 . Named for the ancient Chinese philosopher Mozi, the satellite successfully managed a video call in 2017 between Beijing and Vienna using quantum encryption, making it impossible to eavesdrop upon.
Pan is currently building a new quantum research lab in Hefei, into which the government has already pumped more than a billion dollars.
"We were only the follower and the learner at the birth of modern information science," he told MIT Technology Review last year . "Now we have a chance ... to be a leader."
Fitzsimons, the Horizon CEO, said that while China "has had tremendous accomplishments in the field of quantum communication," it lags behind the United States and Europe in terms of quantum computation.
"The focus on quantum computation in China came after quantum communication, and so is later in bearing fruit," he said. "In recent years, there has been a dramatic increase in efforts both at universities in China and at technology companies, such as Alibaba, Baidu, Tencent and Huawei, focused on computation, which have begun to yield results."
Quantum arms race
The potential benefits of quantum computing to China have been recognized at the highest levels. Quantum technologies were highlighted in the country's 13th Five Year Plan , introduced in 2016, and that same year were mentioned by President Xi himself in a speech announcing the Belt and Road Initiative, his vast trade and infrastructure program.
As well as government funding, private Chinese companies like their Silicon Valley rivals are also getting into the quantum research game: Alibaba alone has pumped around $15 billion into labs focused on future technologies, including quantum computing.
According to Patinformatics , an analysis firm, Chinese organizations filed nearly twice as many patents related to quantum information technology (QIT) as the United States in 2017, and more than 70% of academic QIT patents since 2012 have been awarded to Chinese universities, with US institutions a distant second at 12%.
Beijing's massive funding, and the advances by Chinese scientists, have not gone unnoticed in Washington.
"China's advances in quantum science could impact the future military and strategic balance, perhaps even leapfrogging traditional US military-technological advantages," Kania and Costello wrote in their report, adding that the US "should build upon and redouble existing efforts to remain a leader, or at least a major contender, in the development of quantum technologies."
Their recommendations, and similar warnings from other experts, have borne fruit.
In August, President Donald Trump signed into law the National Quantum Initiative Act. The law authorized an extra $1.2 billion in research funding over five years, as well as establishing a national quantum committee to coordinate research and public funding for the field.
In the statement enacting the law, the White House said it would "ensure continued American leadership in quantum information science and technology applications."
While the United States is starting to match China for funding, Angelakis, the Singapore-based expert, said that "the biggest challenge in the field in the next few years is not money."
As the field grows, competition for talent is also growing -- a factor that is affected by geopolitics and security concerns over quantum technologies. Angelakis compared the situation to early research into nuclear energy, which rapidly got overtaken and co-opted by governments, with research classified and sharing of discoveries limited, though he was quick to point out that quantum technology does not have as devastating a military use.
"There's definitely a race going on and the current geopolitical situation is not helping the real science to progress," Angelakis said. "There are cases of people being denied visas ... it could be something that is very negative in the short term because we are still evolving this technology."
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The US just moved ahead of China in quantum computing - 10News
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Massive Analytic and the National Physical Laboratory collaborate in quantum with successful first project – Quantaneo, the Quantum Computing Source
Posted: at 5:45 am
Massive Analytic, a London based artificial intelligence pioneer, and the National Physical Laboratory (NPL), the UK's National Measurement Institute, have now completed their joint InnovateUK Analysis for Innovators project, the Metrological comparison between a generalised N-dimensional classical and quantum point cloud. The results of this project have opened avenues for both further R&D into quantum as well as ways to enhance Massive Analytics AI platforms.
The project set out to break new ground in quantum by proving that point clouds, created by fusing multi-modal sensor data, could be represented and processed on quantum computers as quantum point clouds. As a result of the project, teams at NPL and Massive Analytic have been successful in simulating transposing point cloud sensor data from an autonomous car onto quantum computers.
Ivan Rungger, senior research scientist at NPL said, Autonomous cars and other advancing technologies rely on the fast acquisition and analysis of sensor data, combining visual data with information such as temperature or humidity distributions. Using Massive Analytics data, we have produced a new method to represent these multi-modal inputs as general point cloud data on quantum computers. Our method simulates how the data can be ported to near term noisy intermediate-scale quantum (NISQ) computers opening the doors for the commercialisation of these technologies in future.
Thanks to the collaboration Massive Analytic has developed a classical-quantum computing hybrid approach, where outputs from classical sensor technologies are modified to enable early applications on current state-of-the-art quantum computers of the order of tens of qubits. Massive Analytic intends to augment its patented AI, Artificial Precognition, with outputs from a quantum processor to further improve prediction accuracy across all its product lines to deliver even more value to its customers. This breakthrough also creates a host of new possibilities for processing IoT data and applying AI and machine learning to it.
The company was supported to participate in the Analysis for Innovators (A4I) scheme by Innovate UK. Funding from the Department of Business, Energy and Industrial Strategy enabled Massive Analytic to access the cutting-edge R&D, expertise and facilities at the National Physical Laboratory, to help overcome the companys unique measurement challenges.
Jonathan Mitchener, from Innovate UK said, Its great that our A4I programme can support key UK technology areas such as Quantum, and in conjunction with world class scientific partners, such as NPL, that A4I brings companies together with, support a growing and ambitious company to be more competitive in the new quantum computing space.
Following the success of the A4I project, NPL and Massive Analytic are in discussion to establish a long term collaboration to develop quantum technologies for data science applications, ranging from sensing to cyber security to precision medicine.
George Frangou, CEO and Founder of Massive Analytic said, Massive Analytic and the National Physical Laboratory in partnership are realising the benefits signposted by the Fourth Industrial revolution; linking Tech City to world class laboratories. With the Government now committed to being the leading European economy in Artificial Intelligence and Quantum Computing, we have the opportunity to create a partnership, which will be regarded as pre-eminent in our chosen domains.
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Moonrise at sunrise seen from the International Space Station ImaGeo – Discover Magazine
Posted: October 30, 2019 at 4:46 am
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Moonrise at sunrise seen from the International Space Station ImaGeo - Discover Magazine
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Lamborghini is sending carbon fiber to the International Space Station – CNET
Posted: at 4:46 am
Pretty soon Lamborghinis won't just look like they came from space, they'll have had parts that were developed there.
Lamborghini is going to space, y'all, and not in an "I'm Elon Musk, and I'm going to send my car into orbit" kind of way.
Automobili Lamborghini is instead working with a hospital called the Houston Methodist Research Institute to examine the effects that the extreme environment of space has on composite materials. Cool, right?
The plan is for Lamborghini to send up several samples of different composite materials to the International Space Station via an unmanned rocket. Once there, the samples will be studied, and it's hoped that the results will inform the design of future supercars and medical equipment like artificial limbs.
"We are very proud," said Lamborghini CEO Stefano Domenicali, in a statement. "Lamborghini is breaking ground as the first automaker in the world to conduct carbon fiber materials science research on the ISS. In addition to representing an important example of corporate social responsibility, this mission is also fully in line with our philosophy and values. Lamborghini is a brand that has always been committed to going beyond limits in every area of its activity and to being a pioneer in the realm of technology."
The carbon fiber samples will spend half a year on the ISS. During that time, they'll be exposed to all kinds of crazy cosmic radiation (I hope Lamborghini is prepared for its samples to come back with powers like The Fantastic Four) as well as massive variations in temperature.
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Lamborghini is sending carbon fiber to the International Space Station - CNET
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Lamborghini will send an experiment to the International Space Station – Digital Trends
Posted: at 4:46 am
Ronan Glon/Digital Trends
Lamborghini wont equal Elon Musks feat of sending a car into space, but it will send pieces of one. Next month, the Italian automaker will send five samples of carbon fiber to the International Space Station (ISS) for testing. Lamborghini claims to be the first automaker to conduct materials science research on the ISS.
The goal of the project is to see how the five samples react to the stresses of space, Lamborghini said. Researchers will be analyzing the results with an eye toward using the materials not only in future cars, but also in medical devices. In 2017 Lamborghini signed an agreement with the Houston Methodist Research Institute to jointly research the biocompatibility of composite materials. The low weight, radio transparency, and radio compatibility of these materials could make them useful in prosthetics and subcutaneous devices, according to Lamborghini.
The samples were developed at Lamborghinis own materials lab, located at the companys Italian headquarters. One sample is 3D printed, while another uses the discontinuous fiber structure first seen on the limited-edition Lamborghini Sesto Elemento in 2010, and currently used on other Lambo production cars. Other samples were made using pre-impregnated expose resin (also known as pre-preg) and autoclaved polymer fabric, the more common methods of carbon fiber construction used in race cars and most other current applications.
The carbon fiber samples will be on the ISS for six months. They will be subjected to temperatures ranging from minus 40 degrees to 200 degrees centigrade (minus 40 degrees to 392 degrees Fahrenheit), as well as ultraviolet radiation and gamma rays, according to Lamborghini. The samples will then be brought back to Earth for analysis by Lamborghini and the Houston Methodist Research Institute. Researchers will be looking for any degradation from exposure to the harsh space environment. Lamborghini claims this will help it develop materials for future cars. The automaker has come up with some interesting ideas recently, such as using the skin of a car to store electricity, but promising lab results dont automatically equal commercial feasibility.
A Northrop Grumman Antares rocket carrying Lamborghinis samples is scheduled to launch from Wallops Flight Facility in Virginia on November 2. Back on Earth, Lambo is prepping its latest supercar, and recent reports indicate it may launch a four-door electric car as well.
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Lamborghini will send an experiment to the International Space Station - Digital Trends
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Low Space Station Flyover Monday Morning | Weather Blog – WDRB
Posted: at 4:46 am
Monday morning the International Space Station will flyover our area! With peak elevation only 23 above the horizon, this will be pretty low in the sky. You will need to get away from tall trees and tall buildings for the best chance to see it.
The other issue will be clouds and fog. The clouds will be just west of our communities, but if you live west of I-65 they may get in your way of seeing the ISS. We are also expecting dense fog to set up through the morning which would obstruct your view. Not everyone will see fog set in Monday morning, so some of you should still be able to see the space station.
The pass begins at 6:59 AM and lasts four minutes, so go outside several minutes before then to give your eyes time to adjust. The space station will appear 20 above northwest and disappear only 10 above north-northeast.
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Low Space Station Flyover Monday Morning | Weather Blog - WDRB
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Astronaut will visit St. Louis to talk space, aliens and his latest record-breaking flight – STLtoday.com
Posted: at 4:46 am
The three questions people most want to ask Terry Virts: Whats it like to float in space? Did you see any aliens? How did you go to the bathroom?
Virts, a retired U.S. Air Force test and fighter pilot who spent two weeks aboard the space shuttle Endeavor and 200 days aboard the International Space Station and who broke the world record this summer for an aircraft flying over the north and south poles, is happy to humor us earthly mortals.
Hell appear Friday at the Touhill Performing Arts Center as part of a National Geographic Live tour, presented by the Touhill and the St. Louis Science Center. Virts, a Baltimore native, will tell stories and show some of the 300,000 photographs he shot more than any other astronaut during his time on the International Space Station. Some of the photos are included in his book, View From Above, and the Imax film A Beautiful World.
But first, those questions.
Floating, as youd expect, is amazing, he says. Its impossible to describe, other than it feels like youre falling. Theres a learning curve; it takes a few weeks to get really good at it.
As for aliens? He didnt see anything, but other planets were too far away for him to know for sure. Life is just so complicated. I look at it from a scientific point of view. I dont think life would happen spontaneously. I think somebody has to create it, he says.
And the bathroom? Airflow, he says. Theres no gravity, so you need to have airflow. You can use your imagination.
Virts, 51, was just a toddler when Neil Armstrong first landed on the moon in 1969, but he grew up playing with toy rockets and had space shuttle posters on his wall.
He was a freshman at the Air Force Academy when the Challenger shuttle broke apart in 1986. In 2003, when Columbia disintegrated, he escorted crew members families who had gathered to watch the landing.
It took some joy out of it because it was so painful, he says. We knew a bad thing could possibly happen. There are some things that are just accidents. But with the Challenger or Columbia, we knew what was happening, and we intentionally ignored it, and thats what was disheartening to me.
His photos from the space station highlight realities of life on Earth. Pollution in Thailand and smog in India are visible, as are scars of deforestation in Brazil and Madagascar. But he also saw unmistakable beauty: the brilliant greens and turquoises of the Bahamas, the extreme greens of New Zealand that make it look like Middle-earth, the glacial lakes tucked between the folds of the Patagonia.
Virts time on the space station gave him an idea for another potential project: a television show in which he would visit all the places he saw from space.
My bucket list is just too big, he says. Ive seen so much, and I want to go see it all from the ground and meet the people who live there.
Hes using his time in space to bring some understanding to people on Earth. Hes writing a book of short essays, which he hopes will be an accessible beach read, about how to prepare for a trip to space: how to train, how to maneuver when youre floating, what to do with your crewmates body if he or she dies.
Hes also editing a movie he directed about One More Orbit, the record-breaking flight over the summer honoring the 50th anniversary of the Apollo 11 moon landing. Virts worked with a team of international aviators to circumnavigate the worlds poles in 46 hours, 39 minutes and 38 seconds in a jet.
The feat was a testament to what humans can accomplish when they work together despite coming from different countries. On the International Space Station, Virts worked and lived alongside Russian cosmonauts during times of tense political relations on Earth.
Virts acknowledges thats a lofty perspective when relations on the ground can seem so tense.
Thats kind of my mission in life, actually, he says. In some ways, it feels like its 1928, and I want to prevent 1940 from happening. Im going to do what I can, just by showing people working together. Hopefully, we can change things.
What Terry Virts: A View From Above When 7:30 p.m. Friday Where Touhill Performing Arts Center, 1 University Boulevard How much $32-$59 More info touhill.org
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Astronaut will visit St. Louis to talk space, aliens and his latest record-breaking flight - STLtoday.com
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