Contributions from Pilot Projects in Quantum Technology Education as Support Action to Quantum Flagship

• URL: http://arxiv.org/abs/2303.07055v1
• Date: Mon, 13 Mar 2023 12:24:19 GMT
• Title: Contributions from Pilot Projects in Quantum Technology Education as Support Action to Quantum Flagship
• Authors: Sergej Faletic, Philipp Bitzenbauer, Maria Bondani, Marilu Chiofalo, Simon Goorney, Kim Krijtenburg-Lewerissa, Oxana Mishina, Rainer Muller, Gesche Pospiech, Ilke Ercan, Massimiliano Malgieri, Avraham Merzel, Marisa Michelini, Pasquale Onorato, Henk Pol, Lorenzo Santi, Zeki Can Seskir, Jacob Sherson, Kirsten Stadermann, Alberto Stefanel, Elif Surer, Kristof Toth, Jorge Yago Malo, Olgas Zabello
• Abstract summary: The goal of QTEdu is to pave the way for the training of the future quantum workforce. New university courses need to be established to support emerging specific profiles such as a quantum engineer.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: The GIREP community on teaching and learning quantum physics and the Education section of the Quantum flagship project of the European Union (QTEdu) have brought together different stakeholders in the field of teaching quantum physics on all levels, including outreach. The goal of QTEdu is to pave the way for the training of the future quantum workforce. To this end, it is necessary to understand the needs of the quantum technology (QT) field, make the general public aware of the existence and importance of QT, and introduce quantum physics already in high school, so that high school students can choose QT as their field of study and career. Finally, new university courses need to be established to support emerging specific profiles such as a quantum engineer. In this symposium, four QTEdu pilot projects were brought together to demonstrate how their complementary approaches have worked towards realising the above goals.

Related papers

• Towards Quantum-Native Communication Systems: New Developments, Trends, and Challenges [63.67245855948243]
  The survey examines technologies such as quantum-domain (QD) multi-input multi-output (MIMO), QD non-orthogonal multiple access (NOMA), quantum secure direct communication (QSDC) The current status of quantum sensing, quantum radar, and quantum timing is briefly reviewed in support of future applications.
  arXiv  Detail & Related papers  (2023-11-09T09:45:52Z)
• Quantum Computing, Math, and Physics (QCaMP): Introducing quantum computing in high schools [0.0]
  We have developed a curriculum for introducing quantum computing to teachers and students at the high school level with no prerequisites. In 2022, this curriculum was delivered over the course of two one-week summer camps.
  arXiv  Detail & Related papers  (2023-09-28T18:26:17Z)
• Entanglement-Assisted Quantum Networks: Mechanics, Enabling Technologies, Challenges, and Research Directions [66.27337498864556]
  This paper presents a comprehensive survey of entanglement-assisted quantum networks. It provides a detailed overview of the network structure, working principles, and development stages. It also emphasizes open research directions, including architecture design, entanglement-based network issues, and standardization.
  arXiv  Detail & Related papers  (2023-07-24T02:48:22Z)
• Quantum data learning for quantum simulations in high-energy physics [55.41644538483948]
  We explore the applicability of quantum-data learning to practical problems in high-energy physics. We make use of ansatz based on quantum convolutional neural networks and numerically show that it is capable of recognizing quantum phases of ground states. The observation of non-trivial learning properties demonstrated in these benchmarks will motivate further exploration of the quantum-data learning architecture in high-energy physics.
  arXiv  Detail & Related papers  (2023-06-29T18:00:01Z)
• The Future Quantum Workforce: Competences, Requirements and Forecasts [0.0]
  With the increasing industrial relevance of new quantum technologies, a well educated quantum workforce becomes increasingly crucial. What are the expectations regarding the future relevance of second generation quantum technologies? Which competences, knowledge and skills should the future employees have?
  arXiv  Detail & Related papers  (2022-08-17T12:08:05Z)
• Recent Advances for Quantum Neural Networks in Generative Learning [98.88205308106778]
  Quantum generative learning models (QGLMs) may surpass their classical counterparts. We review the current progress of QGLMs from the perspective of machine learning. We discuss the potential applications of QGLMs in both conventional machine learning tasks and quantum physics.
  arXiv  Detail & Related papers  (2022-06-07T07:32:57Z)
• Physics-Informed Quantum Communication Networks: A Vision Towards the Quantum Internet [79.8886946157912]
  We present a novel analysis of the performance of quantum communication networks (QCNs) in a physics-informed manner. The need of the physics-informed approach is then assessed and its fundamental role in designing practical QCNs is analyzed. We identify novel physics-informed performance metrics and controls that enable QCNs to leverage the state-of-the-art advancements in quantum technologies.
  arXiv  Detail & Related papers  (2022-04-20T05:32:16Z)
• Quantum Undergraduate Education and Scientific Training [0.17590081165362778]
  Quantum Undergraduate Education and Scientific Training (QUEST) workshop was held June 3rd and 4th, 2021. This manuscript summarizes the results of workshop discussions with the hope of assisting faculty at PUIs attempting to incorporate quantum information science into their curriculum.
  arXiv  Detail & Related papers  (2021-09-28T16:28:12Z)
• Building a Quantum Engineering Undergraduate Program [34.28986951435312]
  Quantum information science and engineering will require both quantum-aware and quantum-proficient engineers at the bachelor's level. For quantum-aware engineers, we describe how to design a first quantum engineering course accessible to all STEM students. For the education and training of quantum-proficient engineers, we detail both a quantum engineering minor accessible to all STEM majors, and a quantum track directly integrated into individual engineering majors.
  arXiv  Detail & Related papers  (2021-08-03T06:06:08Z)
• On exploring the potential of quantum auto-encoder for learning quantum systems [60.909817434753315]
  We devise three effective QAE-based learning protocols to address three classically computational hard learning problems. Our work sheds new light on developing advanced quantum learning algorithms to accomplish hard quantum physics and quantum information processing tasks.
  arXiv  Detail & Related papers  (2021-06-29T14:01:40Z)
• Preparing for the quantum revolution -- what is the role of higher education? [3.2531696064515643]
  We describe the types of activities being carried out in the quantum industry, profile the types of jobs that exist, and describe the skills valued across the quantum industry. We present the training and hiring challenges the quantum industry is facing and how higher education may optimize the important role it is currently playing.
  arXiv  Detail & Related papers  (2020-06-30T00:45:32Z)

This list is automatically generated from the titles and abstracts of the papers in this site.

This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.