While conventional digital technologies encode information in bits represented as either 0 or 1, a quantum bit, or qubit, can represent both states at the same time due to quantum superposition. Research in Quantum information processing studies the potential use of quantum mechanical systems--individual atoms, ions, photons, and nanoscale solid state devices--for information-processing tasks such as computation and communication. To learn more about these endeavors, visit the QIS Centers and Program Office QIS pages. These include original papers, letters, broadly focused perspectives, comprehensive review articles, book reviews, and special topical issues. The quantum information science program is focused on investigations relevant to disciplines supported by the Physics Division, while encouraging broader impacts on other disciplines. Learn more about the Office of Science's Quantum Information Science efforts. The DOE Office of Science is an integral partner in the National Quantum Initiative and has launched a range of multidisciplinary research programs in QIS. Javascript is currently disabled in your browser. The required knowledge is only elementary calculus and linear algebra. Research projects range from single investigators within specific disciplines to large integrated centers that span the Office of Science. The Quantum Information Science Group leverages experimental expertise in the implementation of quantum sensors, networks, and algorithms in quantum hardware platforms and testbeds. But given the sheer physical limits of miniaturization, Moore’s Law is now slowing down, and it has long been recognized that eventually Moore’s Law will come to an end. Home » Initiatives » Quantum Information Science. Major contributions to QIS focus on the following areas: (1) Supporting fundamental science that underpins quantum computing, simulation, communication, and sensing; (2) Creating tools, equipment, and instrumentation that go beyond what was previously imaginable; and (3) Establishing DOE community resources that enable the entire QIS ecosystem to innovate. W elcome to quantum.gov, the home of the National Quantum Initiative and ongoing activities to explore and promote Quantum Information Science. That prediction has held true for better than five decades as millions and eventually billions of transistors were crammed onto the most advanced computer chips. Such effects include “superposition”—whereby a quantum system can exist in all possible states until it is observed—and “entanglement”—whereby measurement of one member of a paired system causes the other member immediately to assume a related value, no matter how distant they are in space. Performance, Directives, Delegations & The lectures "Quantum Information Theory" and "Platforms for Quantum Technologies" are strongly recommended. U.S. Department of Energy Office of Science, Whistleblower That is one major development that has driven the growing interest in quantum information science (QIS)—forms of computing and information processing that might get around these “classical” physical limitations by relying on exotic quantum effects. While conventional digital technologies encode information in bits represented as either 0 or 1, a quantum bit, or qubit, can represent both states at the same time due to quantum superposition. Later the predicted interval was amended to eighteen months. This book presents the basics of quantum information, e.g., foundation of quantum theory, quantum algorithms, quantum entanglement, quantum entropies, quantum coding, quantum error correction and quantum cryptography. U.S. Department of Energy1000 Independence Ave., SWWashington, DC 20585(202) 586-5430, Artificial Intelligence and Machine Learning, Portfolio Analysis and Management System (PAMS), Brochures, Logos, and Information Resources. In 1965, Intel co-founder Gordon Moore predicted that the number of transistors on computer chips would double every year—a trend that implied a yearly doubling of computer power. The National Quantum Initiative Act was signed into law on December 21, 2018. Quantum Information Science is an interdisciplinary field at the boundary of physics, engineering, and computer science. Disciplines within the … Quality, Careers & Quantum Information Science and Technology. Quantum Information Science. Protection, Information A key reason to build a center on quantum information and computer science as part of an institute for computer studies is to better connect physicists, focused on how to build quantum devices, with computer scientists, asking how the devices can be used to solve problems. The purpose of this Act is to ensure the continued leadership of the United States in quantum information science and its technology applications. Quantum Information Science (QIS) is an emerging field with the potential to cause revolutionary advances in fields of science and engineering involving computation, communication, precision measurement, and fundamental quantum science. SC targets applications in four major areas: Recognizing the great potential of QIS, and also aware of the growing international competition in this promising new area of science and technology, Congress passed the National Quantum Initiative Act, which became law in December 2018. They include efforts to develop quantum computers as testbeds, to design new algorithms for quantum computing, and to use quantum computing to model fundamental physics, chemistry, and materials phenomena. Since the mid-1960s, we have been living in a world governed by Moore’s Law. The DOE Office of Science is an integral partner in the National Quantum Initiative and has launched a range of research programs in QIS. There are efforts supporting quantum communication using entanglement towards the possible development of a future quantum network. Quantum Information Science. Such quantum systems may offer large gains over classical information … You are here. In the scope of the Cluster of Excellence "ML4Q", courses in Bonn and Cologne from the following list can be taken to be acknowledged in the area of "Quantum Information Science and Technology".