$50 Million Gift Names the Helen Diller Center for Quantum Science, Matter and Engineering at Israel’s Technion

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New York, April 16, 2018 (GLOBE NEWSWIRE) -- The Technion-Israel Institute of Technology has announced a $50 million naming gift from the Helen Diller Family Foundation to support the university’s new state-of-the-art quantum center. The center will henceforth be named the Helen Diller Center for Quantum Science, Matter and Engineering.

The gift, which is expendable to allow for its immediate use, will strengthen the Technion’s position as a world leader in quantum science and engineering by providing the means for new faculty recruitment, establishing new infrastructure, seed funding for research and development, and educating a new generation of engineers with a mastery of quantum mechanics. 

“The Technion is one of the preeminent institutions for technology in the world, and my parents thought this was an important investment for the future of Israel and humanity,” said . “The new Helen Diller Center for Quantum Science, Matter and Engineering will help Israel secure its place in the next revolution in science and engineering.” 

Quantum mechanics – a fundamental theory in physics that describes nature at the smallest scales of energy levels of atoms and subatomic particles – revolutionized science in the early part of the twentieth century. Now, Technion scientists are on the verge of being able to employ quantum in ways that promise to shape the future. Technologies born from quantum science will include: totally secure computing, communications and online transactions; superior sensing technology that can be used for medical treatments and diagnoses, and for monitoring chemical, biological and nuclear materials; the development of computers with computational powers far beyond those of standard computers; and new materials with unusual electrical, optical and magnetic properties that will lead to new and innovative devices and solutions. 

“Over the years, Technion has gained renowned experience in identifying the needs of industries and opportunities for developing the Israeli economy,” said . “In the past, this experience has been demonstrated in many fields, including space and aeronautics, microelectronics, electro-optics, and nanotechnology. This ability has allowed Technion to lead historic shifts in Israeli society and play a vital role in building Israel as the ‘Startup Nation’ – a globally recognized technological powerhouse.” 

The Technion has a long history of major contributions to quantum science research. On May 15, 1935, Professor Nathan Rosen, the founder of the Technion Physics department, along with his mentor, Professor Albert Einstein, and their colleague, Boris Podolsky, published a historic paper on quantum fusion and the EPR Paradox (named after the three authors, listed alphabetically). In 1993, Technion Faculty of Physics Professor Asher Peres and colleagues published a groundbreaking paper on quantum teleportation, which has become a major milestone in quantum information and communication. The Technion’s broad and in-depth involvement in the field of quantum physics has continued ever since, with many Technion researchers being major figures on the world scene in all aspects of quantum sciences and engineering. 

Two top faculty members who will be part of the leadership of the Helen Diller Center for Quantum Science, Matter and Engineering are . 

“The world is now witnessing the second quantum revolution,” said . “The immense nanotechnology capabilities and expertise developed worldwide in the past 15 years have paved the way for scientists to employ quantum science in engineering technologies that will impact society at large.” 

“The Technion is at the forefront of research in many areas involving quantum mechanics,” said . “The Technion is where the generation of entanglement – a fundamental quantum property - with artificial atoms (“quantum dots”) was first demonstrated (by Prof. David Gershoni and his students),” said Distinguished Professor Segev. “This is where Prof. Gadi Eisenstein and his team developed tiny, inexpensive atomic clocks that found their way into industry. This is where innovative theoretical concepts were developed (by Profs. Netanel Lindner, Daniel Podolsky, Assa Auerbach and their students) in the area of quantum materials (topological insulators), with huge worldwide impact. These are only a few examples, out of very many, including some by my own team, such as our recent discovery of topological insulator lasers that started off as a quantum simulator system and evolved into devices with real potential impact on technology. The Helen Diller Family Foundation’s generous grant elevates the Technion to the pinnacle of quantum research institutions, and it is truly a game changer.” 

“In the coming decade, the Technion will lead the global quantum revolution thanks to its unique cohesion between the basic sciences and engineering expertise,” added . “We established a Center for Quantum Science, Matter and Engineering based on the belief that this technology is vital to Israel’s economy and security. The Helen Diller Family Foundation’s exciting seed funding gift will enable the Center to act now in the goal of providing a better future for Israelis as well as humankind overall.” 

“This is a remarkable moment for the Technion, Israel and the world,” said . “This transformational gift from the Helen Diller Family Foundation will enable the Technion to maintain its place at the forefront of quantum research, and to continue to lead the way for the quantum-based applications and innovations that promise to shape the future.” 

The Helen Diller Center for Quantum Science, Matter and Engineering will focus on developing quantum computation, communications, new materials and sensing technologies that are expected to impact the future. The main research areas will include: 

Quantum Communication: With cybersecurity breaches disrupting governments, financial institutions and vast computer networks around the world, the advent of totally secure communications would be revolutionary.  Because no cryptographically coded system that is not a quantum system can provide a similar degree of security, developing quantum aspects of computing, communications, communication security, sensing, and signal processing is vital. 

Quantum Sensing and Detection: Quantum sensors, which outperform traditional sensory equipment, will be used to monitor numerous physical conditions on land, in the air and at sea. Many security systems, including anti-missile defenses, night vision, and missile identification will be vastly improved with quantum sensors. Civil applications such as energy harvesting, medical treatment and diagnosis, environmental improvements via monitoring of dangerous chemical, biological, and nuclear materials will also have a large influence on society. 

Quantum Computing: Quantum computing is considered the “Holy Grail” of quantum technology. Quantum computers are fundamentally different from transistor-based classical computers that use binary (0/1) logic. Because quantum computers operate according to quantum mechanical principles, they make use of an endless number of 1 and zero combinations thereby enabling computational powers not possible with standard computers. 

Quantum Materials: Quantum technologies will require new and improved materials and are therefore crucial. The quantum materials often have unusual electrical, optical, and magnetic properties that can pave the way for a range of innovative quantum devices.  New material fabrication techniques and sophisticated material characterization schemes will be developed together with deep theoretical studies of their properties. 

Quantum Simulators: Quantum systems can execute much more sophisticated simulations than existing computers. Therefore, they are expected to break new ground for simulations of fundamental processes in condensed matter physics and cold atoms, which will give rise to new technologies, biological systems, and optical systems such as the topological laser recently developed at the Technion Faculty of Physics. 

Kevin Hattori
American Technion Society

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Globe Newswire: 14:15 GMT Monday 16th April 2018

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