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A year ago French president Emmanuel Macron announced plans to provide a framework for his nation's industrial and research forces to make the country a key player in the development of quantum technology. The "Quantum Plan" included an investment of 1.8 billion ($2 billion) over five yearsa significant increase that placed France third after the United States and China.

That included nearly 800 million for computers alone.

Thesector has already experienced significant growth, with patent filings doubling between 2018 and 2020, according to data and analytics company GlobalData. It is believed that the technology could potentially revolutionize areas of defense such as artificial intelligence (AI), enabling autonomous vehicles and improved targeting for precision weapons systems.

Quantum Leap Forward

Quantum computers are not just improved computers. Rather the machinesonce fully developedcould utilize the properties of quantum physics to store data and perform computations. Theoretically, a single quantum computer could complete in seconds tasks that would take classical computers thousands or even millions of years.

The first nation to achieve quantum computing could have a significant advantage, especially as the technology could render current encryption obsolete.

According to a new report from GlobalData, "Quantum Technologies in Defense," this is why many countries are concerned about falling behind in the quantum race due to the potential for the technology to revolutionize communications. Communication is a critical area for the defense sector, with quantum key distribution (QKD) having the potential to completely prevent adversaries from accessing secure communications.

Per the report: "As the existing quantum workforce is extremely small, with only a limited number of people having the capability to design and build quantum computers, countries are pushing to develop an industrial and skills base that will enable them to utilize quantum technologies."

Part of France's spending will initially be to create a platform that will allow traditional computers to access quantum processing power. "Quantum computers are expensive and extremely complex to build, so a remote platform is critical for providing the defense industry with access to quantum tools," explained William Davies, associate defense analyst at GlobalData, in an email.

"The technology is an important investment for the future of the French defense industry, and is a good move for the country to keep up with its peers," Davies continued. "Allies such as the U.S. and the UK are also investing, as well as adversaries such as China, largely to benefit their own defense interests. Further, IQM, a European quantum computer company, is opening an office in Paris in 2022 as a direct response to France increasing investment in quantum. This businessinvestment will provide opportunities for France to expand its domestic quantum base and increase the amount of trained personnel in the sector."

Along with hypersonic weapons, stealth technology, and high-energy weapons, quantum computing could be a significant game changer. Clearly France intends not to be left behind.

Peter Suciu is a Michigan-based writer who has contributed to more than four dozen magazines, newspapers and websites. He regularly writes about military small arms, and is the author of several books on military headgear including A Gallery of Military Headdress, which is available on Amazon.com.

Image: Reuters.

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How France Is Becoming a Quantum Computing Power - The National Interest

A math problem developed 243 years ago can be solved only by using quantum entanglement, new research finds.

The mathematics problem is a bit like Sudoku on steroids. It's called Euler's officer problem, after Leonhard Euler, the mathematician who first proposed it in 1779. Here's the puzzle: You're commanding an army with six regiments. Each regiment contains six different officers of six different ranks. Can you arrange them in a 6-by-6 square without repeating a rank or regiment in any given row or column?

Euler couldn't find such an arrangement, and later computations proved that there was no solution. In fact, a paper published in 1960 in the Canadian Journal of Mathematics used the newfound power of computers to show that 6 was the one number over 2 where no such arrangement existed.

Now, though, researchers have found a new solution to Euler's problem. As Quanta Magazine's Daniel Garisto reported, a new study posted to the preprint database arXiv finds that you can arrange six regiments of six officers of six different ranks in a grid without repeating any rank or regiment more than once in any row or column if the officers are in a state of quantum entanglement.

The paper, which has been submitted for peer review at the journal Physical Review Letters, takes advantage of the fact that quantum objects can be in multiple possible states until they are measured. (Quantum entanglement was famously demonstrated by the Schrdinger's cat thought experiment, in which a cat is trapped in a box with radioactive poison; the cat is both dead and alive until you open the box.)

In Euler's classic problem, each officer has a static regiment and rank. They might be a first lieutenant in the Red Regiment, for example, or a captain in the Blue Regiment. (Colors are sometimes used in visualizing the grids, to make it easier to identify the regiments.)

But a quantum officer might occupy more than one regiment or rank at once. A single officer could be either a Red Regiment first lieutenant or a Blue Regiment captain; a Green Regiment major or Purple Regiment colonel. (Or, theoretically, any other combination.)

The key to solving Euler's problem with this identity switcheroo is that the officers on the grid can be in a state of quantum entanglement. In entanglement, the state of one object informs the state of another. If Officer No. 1 is, in fact, a Red Regiment first lieutenant, Officer No. 2 must be a major in the Green Regiment, and vice versa.

Using brute-force computer power, the authors of the new paper, led by Adam Burchardt, a postdoctoral researcher at Jagiellonian University in Poland, proved that filling the grid with quantum officers made the solution possible. Surprisingly, the entanglement has its own pattern, study co-author Suhail Rather, a physicist at the Indian Institute of Technology Madras, told Quanta Magazine. Officers are only entangled with officers of ranks one step below or above them, while regiments are also only entangled with adjacent regiments.

The results could have real impacts on quantum data storage, according to Quanta Magazine. Entangled states can be used in quantum computing to ensure that data is safe even in the case of an error a process called quantum error correction. By entangling 36 quantum officers in a state of interdependent relationships, the researchers found what is called an absolutely maximally entangled state. Such states can be important for resilient data storage in quantum computing.

You can read all about the impossible problem's solution in Quanta Magazine.

Originally published on Live Science.

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Centuries-old 'impossible' math problem cracked using the strange physics of Schrdinger's cat - Livescience.com

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Global Cloud Quantum Computing Market t to Eyewitness Massive Growth with type, applications, by 2022-2027 Discovery Sports Media - Discovery Sports...

In the healthcare industry, quantum computing could enable a variety of disruptive use cases for providers and health plans by accelerating diagnoses, personalizing medicine, and optimizing pricing. Quantum-enhanced machine learning algorithms are particularly relevant to the sector.

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Prominent players in the global Quantum Computing in Healthcare market are consistently pouring funds into the research and development of next-generation healthcare IT solutions. These players are keen on expanding their foothold in cloud-based Quantum Computing in Healthcare solutions.

Some of the top key players of this market are D-Wave Solutions, IBM, Google, Microsoft, Rigetti Computing, Intel, Anyon Systems Inc., Cambridge Quantum Computing Limited, Origin Quantum Computing Technology.

Various factors are responsible for the markets growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Quantum Computing in Healthcare market. This report is a consolidation of primary and secondary research, which provides market size, share, dynamics, and forecast for various segments and sub-segments considering the macro and micro environmental factors. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market.

Global Quantum Computing in Healthcare Market Segmentation:

Market Segmentation: By Type

Diagnostic AssistancePrecision MedicineOthers

Market Segmentation: By Application

HospitalResearch InstituteOther

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The key regional markets methodically examined in the research report are North America, Europe, Japan, China, India, and Southeast Asia. North America is expected to represent a substantial share in the market during the forecast period. The growth of the region is primarily driven by the healthcare IT market in the U.S., which is one of the most prominent and mature markets worldwide. The stringent regulatory norms and Quantum Computing in Healthcare incentivizing policies in the region are prompting hospitals and clinics in the region to implement Quantum Computing in Healthcare solutions.

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Table of Contents

Global Quantum Computing in Healthcare Market Research Report 2022 2028

Chapter 1 Quantum Computing in Healthcare Market Overview

Chapter 2 Global Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6 Global Production, Revenue (Value), Price Trend by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Manufacturing Cost Analysis

Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributors/Traders

Chapter 11 Market Effect Factors Analysis

Chapter 12 Global Quantum Computing in Healthcare Market Forecast

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Quantum Computing in Healthcare Market to Witness Robust Expansion by 2029 | D-Wave Solutions, IBM, Google - Digital Journal

A recent investigation that resurfaced damning evidence that famed physicist Erwin Schrdinger was a pedophile is continuing to make waves in the academic community.

Schrdinger, widely cited as the father of quantum physics and perhaps best remembered for his 1935 thought experiment Schrdingers Cat, was widely revealed to be a pedophile by The Irish Times after the newspaper published a report detailing his record as a sexual predator and serial abuser.

Its a stomach-churning revelation about a researcher whose work revolutionized the study of the natural world and even led directly to todays international research frenzy into quantum computing and which shows, once again, that even the powerful and brilliant can be monsters.

The Irish Times identified young girls who Schrdinger became infatuated with, including a 14-year-old girl whom the physicist groomed after he became her math tutor.

Schrdinger, who died in 1961, later admitted to impregnating the girl when she was 17 and he was in his mid-forties. Horrifyingly, she then had a botched abortion that left her permanently sterile, according to the newspaper.

Perhaps most diabolically, the physicist kept a record of his abuse in his diaries, even justifying his actions by claiming he had a right to the girls due to his genius.

Walter Moore, author of the biography Schrdinger, Life and Thought published in 1989, said that the physicists attitudes towards women was essentially that of a male supremacist. Disgustingly, the biography seemed to downplay and even romanticize his abusive habits, and describes him as having a Lolita complex.

Schrdinger also attempted a relationship with a different 12-year-old girl, disgustingly writing in his journal that she was among the unrequited loves of his life. However, he decided not to pursue her after a family member voiced their concerns that the physicist was a, you know, unrepentant abusive predator.

In response, a petition has been launched to change the title of a lecture hall at Dublins Trinity University thats named after him.

We can acknowledge the great mark Schrdinger has left on science through our study, and this petition does not wish to diminish the impact his lectures or ideas had on physics, the petition says. However, it seems in bad taste that a modern college such as Trinity would honor this man with an entire building.

Thats true, of course. You can recognize the contributions someone has had in their field while also acknowledging that they were an absolute scumbag.

Buthonoring them by naming a lecture hall or a giant space telescope is completely unnecessary.

READ MORE: How Erwin Schrdinger insulted his Lolita complex in Ireland [The Irish Times]

More on horrible men: James Webb Hated Gay People. Why Are We Naming a Telescope After Him?

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Turns Out Schrdinger, the Father of Quantum Physics, Was a Pedophile - Futurism