Faculty Adviser: Anastasios Kyrillidis
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Presenter: J. Lyle Kim
Faculty Adviser: Anastasios Kyrillidis
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Joint work with A. Kalev (USC), G. Kollias & K. Wei (IBM), & A. Kyrillidis (Rice)
Presenter: J. Lyle Kim
Faculty Adviser: Anastasios Kyrillidis
[ | | ]
Joint work with Mohammad Taha Toghani (Rice), Cesar A. Uribe (Rice), & A. Kyrillidis (Rice)
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Program | PhD track in Quantum Science and Technologies |
ECTS Credits | 120 (first two years) |
Language | English |
Orientation | Research |
Location | Palaiseau Campus |
Course duration | two years (coursework period), followed by a three-year dissertation phase |
Course start | September |
Degrees awarded | Master’s degree (after the first two years), PhD (on completion of the dissertation) |
Get ready for a PhD by starting research at an early stage
Be closely associated with the research activities carried out in a world-renowned innovation cluster
Benefit from individual and personalized supervision by a faculty member
Quantum Technologies have seen a dramatic development in the past few years. The realization of individual quantum systems and the control of new materials with unconventional properties has paved the way to the development of machines and protocols based on the most fundamental aspects of quantum mechanics, without classical counterparts, such as the superposition of states and entanglement. The demonstration of quantum supremacy in 2019 has been a major step, but many new challenges remain to be taken for the complete deployment of Quantum Technologies, at both the fundamental level and that of practical applications.
The Quantum Science and Technologies PhD track is organized around six pillars:
It aims at providing the students with a high level education at the state of the art of quantum physics and quantum information processing in direct contact with forefront research in all these fields.
The five-year curriculum of the PhD track trains students in cutting-edge research for them to pursue international careers in prestigious universities and academic labs or leading companies in quantum technologies.
The PhD Track provides a five-year "à la carte" integrated Master and PhD program for particularly motivated and talented students aiming at preparing a career in academia or industry through an individualized research-oriented training program in Quantum Science and Technologies. Students will be attributed an academic tutor in their field of research from the very start of their studies at IP Paris. In coordination with their tutor, students will elaborate their own personal curriculum consisting of course work and research phases corresponding to their research interests and professional project.
During their first year, students will follow a selection of high level courses focused on quantum physics and its interfaces. It may include computer science and applied mathematics courses, as well as complementary modules allowing them to broaden their general scientific culture and to acquire complementary skills. At the same time, the students are immediately members of the research team of their tutor and participate in team activities and research discussions. This includes in particular attending relevant research seminars and potentially topical workshops. During the first year, students will work on a research project, in collaboration with their host team. A significant part of the second year will be devoted to a larger-scale research work, giving rise to a Master thesis and – most likely – first research publications. This is also the occasion to consolidate their choice for the topic of their PhD.
While it will still be possible to follow selected – more specialized – scientific courses and courses in secondary skills, the last three years of the PhD Track program will be mainly devoted to research work towards the PhD degree.
In addition to the weekly laboratory work, two mandatory full-time internships take place during the spring, one at the M1 level, the other at the M2 level. The duration and corresponding number of ECTS are at least those of the main Master in which the student is enrolled. The number of ECTS can be adapted depending on the duration of the internship.
Students have the opportunity to visit international partner universities.
All relevant laboratories of IP Paris and partner institutions, in particular
Academic prerequisites.
Completion with highest honors of a Bachelor in physics, including courses in quantum physics, at Institut Polytechnique de Paris or equivalent in France or abroad.
Evidence of research potential is essential as the main goal of such a PhD program is to train first class researchers.
Students who have completed the first year of an equivalent program may exceptionally be directly admitted to the second year (4-year PhD program).
A certificate of proficiency in English (level B2) is required (TOEIC, IELTS, TOEFL, Cambridge ESOL), except for native speakers and students who previously studied in English.
Applications are exclusively online. You will be required to provide the following documents:
You will receive an answer in your candidate space within 2 months following the closing date of the application session.
Registration fees are available here
Find out more about scholarships
Please note that fees and scholarships may change for the following year.
Coordinator.
When applying to the PhD Tracks in Physics, you should describe your preferred fields of study and research in your motivation letter. You are ecouraged to choose two preferred PhD Track subjects among the list below. Since the posted offers do not cover the full spectrum of our activities , you can also visit the web pages of the 11 laboratories (CPHT, IPVF, LLR, LOA, LOB, LPICM, LPMC, LPP, LSI, LULI, Omega) affiliated to the physics department and indicate the research lines that interest you the most.
Join the quantum revolution at Harvard.
We are witnessing the birth of Quantum Science & Engineering, an event no less significant than the advent of the physics and engineering of electronics at the beginning of the last century. This new discipline demands new approaches to educating the rising generations of researchers who will require deep knowledge of science and engineering principles.
The quantum world of very small things has only recently been amenable to full control and this, in turn, has led to an explosion in potential applications, from new approaches to computation and communication, to more rapid drug discovery, and new sensors with unprecedented precision and resolution. We are at the frontier of the development of fully engineered quantum systems, starting from physical phenomena exhibited by quantum materials, integrating devices and systems subject to quantum architectures, and transforming the way in which we acquire, communicate, and process information.
Harvard University plays a leading role in the development of Quantum Science & Engineering. We invite you to learn more about our PhD program .
Post-baccalaureate program help students transition to the next academic level
Academics , Applied Physics , Bioengineering , Diversity / Inclusion , Environmental Science & Engineering , Materials Science & Mechanical Engineering , Optics / Photonics , Quantum Engineering , Robotics
Quantum Noir fosters sense of community among individuals of color involved in quantum science and engineering
Diversity / Inclusion , Materials , Quantum Engineering
Researchers develop a platform to probe, control qubits in silicon for quantum networks
Applied Physics , Quantum Engineering
The application of quantum phenomena to the development of new technological applications is one of the challenges of this century, as it promises to revolution citizens’ lives on communication, sensing, computation, and security. Quantum technologies are a priority of European and national stakeholders, in order to secure European technological sovereignty in this highly strategic field. As renowned actor in quantum science and technology, Université Grenoble-Alpes is proposing a COFUND DP aimed at efficiently train research fellows in this emergent domain, facing short to long-term challenges, and to build their career perspectives with various track options (short to medium-term positions, in private employment market, where the need of several thousand jobs profiles in quantum topics is expected to emerge in the next eight years, and in renown research centres all across Europe). Fellows will be at the forefront of emergent quantum discoveries from fundamental science to novel technologies, in a “3i” ecosystem, with perspective to diversify their set of skills and forge new mind sets and approaches to research and innovation. QuanG will rely on the strong basis sets by previous COFUND, enabling fellows to be rapidly recruited using robust, efficient, fair and transparent recruitment and integration process, and immersed in excellent training and supervision conditions, both from research and transferable skills perspectives. Besides, QuanG will aim at including all types of minorities and will strongly encourage women applications. 30 Associated Partners, academics and industrials, and 17 laboratories are supporting UGA in pushing forward this ambitious project, that will recruit 36 PhD fellows, over 4 calls, for a duration of 5 years. UGA consortium will invest 60% of the total funding available to fellows noticeably covering research, training, communication and selection costs.
We are opening in Grenoble a common PhD call in quantum sciences and technologies supported by the QuanG Marie-Sklodowska-Curie Action (MSCA) COFUND program of the European Union, the QuanTEdu-France PhD program and the Labex QuantAlps.
Candidates are encouraged to apply to all the different programs if they fulfill the corresponding eligibility criteria. We strive for gender diversity and equality in the profiles of the selected candidates and we are particularly committed to support women in quantum sciences and technologies.
QuanG – We are seeking talented and motivated applicants in the domains of physics, computer science, electrical engineering, mathematics, chemistry and humanities, for a PhD thesis in quantum sciences and/or technologies (see the Guide of Applicant for details). The thesis project has to plan a secondment in a company (2 months) or in an international academic laboratory (4 months). Applicants have to satisfy the EU MSCA mobility criteria i.e. they must have not spent more than 12 months in France during the last three years (i.e., between March 16th 2021 and March 15th, 2024), not including holidays
QuanTEdu-France – We are seeking talented and motivated applicants in the domains of physics, computer science, electrical engineering and mathematics, for a PhD thesis in quantum technologies. Thesis topics have to cover quantum computing, quantum simulation, quantum communication, quantum sensors or quantum metrology.
QuantAlps-Labex – We are seeking talented and motivated applicants in the domains of physics, computer science, electrical engineering, mathematics, and humanities, for a PhD thesis in quantum sciences. The PhD thesis project must fulfil at least one of the Labex synergy criteria: i) co-supervision by researchers belonging to two different teams of the QuantAlps laboratories; ii) interdisciplinary or inter-Labex project; iii) collaboration with R&D laboratories or companies.
PhD STARTING DATE : February 1st 2025 to June 1st 2025.
GROSS SALARY PRIOR TO EMPLOYEE TAX DEDUCTION : 2200 euros for QuanTEdu-France and QuantAlps Labex; 2300 euros for QuanG
Additional travel allowance will be granted by QuanG and QuanTEdu programs. For QuanG, it will cover up to 8k€ the secondment costs including travel and accommodation, and the participation to international conferences and schools. For QuanTEdu-France, a funding of 5k€ is awarded to finance missions (registration, travel and accommodation) during the thesis.
Yearly enrollment to University Grenoble Alpes is around 500 euros (covered by QuanG only)
DURATION : 36 months
APPLICATION PROCEDURE : candidates have to apply for QuanG, QuanTEdu and QuantAlps programs through the application interface with its online form.
They have to present a PhD project together with their future supervisors, following the instructions detailed in the application interface.
Two reference letters following the model proposed in the application interface should be sent directly by theirs authors to the email address: [email protected]
By September 27 th 2024 at 17:00 (central European time): the complete application should be submitted through the web interface and the reference letters should be sent by email to [email protected]
November 11 th to 15 th , 2024 : selection of candidates for an interview.
December 12 th to 16 th , 2024 : interview of the selected candidates.
December 20 th , 2024: information on the outcome of the selection.
By January 3 rd , 2025 at 23:59 (central European time) : acceptance of the positions is required from the selected candidates.
Copyright © 2024 QuanG. All rights reserved.
PhD Project in developing and conveying quantum algorithms. The Novo Nordisk Foundation Quantum Computing Programme (NQCP) is establishing a talented and diverse international team to create a cutting-edge quantum programme in the heart of Copenhagen, Denmark. At the Niels Bohr Institute, University of Copenhagen, where the formulation of Quantum Mechanics was born 100 years ago, we aim to establish an international quantum computing programme, funded by the Novo Nordisk Foundation, that will drive research and innovations at multiple levels - from developing scalable quantum processor technologies to solutions for the quantum-classical control and readout interface, and all the way to quantum algorithms and applications. The long-term mission of the programme is to develop fault-tolerant quantum computing hardware and quantum algorithms that solve life-science-relevant chemical and biological problems.
The PhD project will investigate quantum systems which naturally perform certain aspects of quantum algorithms. The aim is to draw upon the intuition obtained from these systems to 1) make the dynamics of quantum algorithms more accessible to non-experts of the field and 2) to investigate new aspects of quantum algorithms. The PhD student involved in this project will be a member of and work in close collaboration with both the NQCP Education & Outreach (E&O) team as well as the NQCP Algorithms & Applications team.
With colleagues in the NQCP E&O team the candidate will also convey a broader range aspects concerning quantum technologies by developing new teaching material and through teaching at pre-university, university and post-university level.
Start date is (expected to be) January 1st 2025 or as soon as possible thereafter.
The NQCP E&O team is an integrated part of NQCP, all members are actively involved in the NQCP research. The NQCP E&O team is dedicated to ensure the best possible quantum workforce development. Our work on this currently focuses on
We are looking for highly motivated candidates with a background from Physics, Nano-Science, or Mathematics. Theoretical/experimental/computational competenses and experience within quantum physics are important. We hope to get applications from enthusiastic students with loads of academic drive, a flair for teaching and educational ingenuity.
We offer creative and stimulating working conditions in a dynamic and international research environment hosted by the NNF Quantum Computing Programme at the Niels Bohr Institute, University of Copenhagen.
Depending of your level of education, you can undertake the PhD programme as either:
Option A: A three year full-time study within the framework of the regular PhD programme ( 5+3 scheme) , if you already have an education equivalent to a relevant Danish master’s degree.
Option B: A n up to five year full-time study programme within the framework of the integrated MSc and PhD programme (the 3+5 scheme), if you do not have an education equivalent to a relevant Danish master´s degree – but you have an education equivalent to a Danish bachelors´s degree .
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Option A: Getting into a position on the regular PhD programme
Qualifications needed for the regular programme To be eligible for the regular PhD programme, you must have completed a degree programme, equivalent to a Danish master’s degree (180 ECTS/3 FTE BSc + 120 ECTS/2 FTE MSc) related to the subject area of the project, e.g. physics, nano-science or math. For information of eligibility of completed programmes, see General assessments for specific countries and Assessment database .
Terms of employment in the regular programme Employment as PhD fellow is full time and for maximum 3 years.
Employment is conditional upon your successful enrolment as a PhD student at the PhD School at the Faculty of SCIENCE, University of Copenhagen. This requires submission and acceptance of an application for the specific project formulated by the applicant.
Terms of appointment and payment accord to the agreement between the Danish Ministry of Taxation and The Danish Confederation of Professional Associations on Academics in the State. The position is covered by the Protocol on Job Structure.
Appointment will be subject to receipt of a security clearance.
Option B: Getting into a position on the integrated MSc and PhD programme
Qualifications needed for the integrated MSc and PhD programme
If you do not have an education equivalent to a relevant Danish master´s degree , you might be qualified for the integrated MSc and PhD programme, if you have an education equivalent to a relevant Danish bachelor´s degree. Here you can find out, if that is relevant for you: General assessments for specific countries and Assessment database .
Terms of the integrated programme To be eligible for the integrated scholarship, you are (or are eligible to be) enrolled at one of the faculty’s master programmes in Physics.
Students on the integrated programme will enroll as PhD students simultaneously with completing their enrollment in this MSc degree programme.
The duration of the integrated programme is up to five years, and depends on the amount of credits that you have passed on your MSc programme. For further information about the study programme, please see: www.science.ku.dk/phd , “Study Structures”.
Until the MSc degree is obtained, (when exactly two years of the full 3+5 programme remains), the grant will be paid partly in the form of 48 state education grant portions (in Danish: “SU-klip”) plus salary for work (teaching, supervision etc.) totalling a workload of 150 working hours per year. A PhD grant portion is currently (2024) DKK 6.820 before tax. When you have obtained the MSc degree, you will transfer to the salary-earning part of the scholarship for a period of two years. At that point, the terms of employment and payment will be according to the agreement between the Ministry of Finance and The Danish Confederation of Professional Associations on Academics in the State (AC). The position is covered by the Protocol on Job Structure.
Responsibilities and tasks in both PhD programmes
(ONLY when you are attending the integrated MSc and PhD programme)
We are looking for the following qualifications:
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Application and Assessment Procedure
Your application including all attachments must be in English and submitted electronically by clicking APPLY NOW below.
The deadline for applications is 20 October 2024, 23:59 GMT +2 .
We reserve the right not to consider material received after the deadline, and not to consider applications that do not live up to the abovementioned requirements.
After deadline, a number of applicants will be selected for academic assessment by an unbiased expert assessor. You are notified, whether you will be passed for assessment.
The assessor will assess the qualifications and experience of the shortlisted applicants with respect to the above mentioned research area, techniques, skills and other requirements. The assessor will conclude whether each applicant is qualified and, if so, for which of the two models. The assessed applicants will have the opportunity to comment on their assessment. You can read about the recruitment process at https://employment.ku.dk/faculty/recruitment-process/ .
For specific information about the PhD fellowship, please contact the principal supervisor.
General information about PhD study at the Faculty of SCIENCE is available at the PhD School’s website: https://www.science.ku.dk/phd/ .
The University of Copenhagen wishes to reflect the surrounding community and invites all regardless of personal background to apply for the position.
Part of the International Alliance of Research Universities (IARU), and among Europe’s top-ranking universities, the University of Copenhagen promotes research and teaching of the highest international standard. Rich in tradition and modern in outlook, the University gives students and staff the opportunity to cultivate their talent in an ambitious and informal environment. An effective organisation – with good working conditions and a collaborative work culture – creates the ideal framework for a successful academic career.
Program will prepare leaders of the ‘quantum revolution’
CAMBRIDGE, MA (Monday, April 26, 2021) – Harvard University today announced one of the world’s first PhD programs in Quantum Science and Engineering , a new intellectual discipline at the nexus of physics, chemistry, computer science, and electrical engineering with the promise to profoundly transform the way we acquire, process and communicate information and interact with the world around us.
“This cross-disciplinary PhD program will prepare our students to become the leaders and innovators in the emerging field of quantum science and engineering,” said Emma Dench, dean of the Graduate School of Arts and Sciences and McLean Professor of Ancient and Modern History and of the Classics. “Harvard’s interdisciplinary strength and intellectual resources make it the perfect place for them to develop their ideas, grow as scholars, and make discoveries that will change the world.”
The University is already home to a robust quantum science and engineering research community, organized under the Harvard Quantum Initiative . With the launch of the PhD program, Harvard is making the next needed commitment to provide foundational education for the next generation of innovators and leaders who will push the boundaries of knowledge and transform quantum science and engineering into useful systems, devices, and applications.
“The new PhD program is designed to equip students with the appropriate experimental and theoretical education that reflects the nuanced intellectual approaches brought by both the sciences and engineering,” said faculty co-director Evelyn Hu , Tarr-Coyne Professor of Applied Physics and of Electrical Engineering at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS). “The core curriculum dramatically reduces the time to basic quantum proficiency for a community of students who will be the future innovators, researchers, and educators in quantum science and engineering.”
“Quantum science and engineering is not just a hybrid of subjects from different disciplines, but an important new area of study in its own right,” said faculty co-director John Doyle , Henry B. Silsbee Professor of Physics. “A PhD program is necessary and foundational to the development of this new discipline.”
“America’s continued success leading the quantum revolution depends on accelerating the next generation of talent,” said Dr. Charles Tahan, assistant director for quantum information science at the White House Office of Science and Technology Policy and director of the National Quantum Coordination Office. “It’s nice to see that a key component of Harvard’s education strategy is optimizing how core quantum-relevant concepts are taught.”
The University is also finalizing plans for the comprehensive renovation of a campus building into a new state-of-the-art quantum hub—a shared resource for the quantum community with instructional and research labs, spaces for seminars and workshops, and places for students, faculty, and visiting researchers and collaborators to meet and convene. Harvard’s quantum headquarters will integrate the educational, research, and translational aspects of the diverse field of quantum science and engineering in an architecturally cohesive way. This critical element of Harvard’s quantum strategy was made possible by generous gifts from Stacey L. and David E. Goel ‘93 and several other alumni.
“Existing technologies are reaching the limit of their capacity and cannot drive the innovation we need for the future, specifically in areas like semiconductors and the life sciences,” said Goel, co-founder and managing general partner of Waltham, Massachusetts-based Matrix Capital Management Company, LP, and one of Harvard’s most ardent supporters. “Quantum is an enabler, providing a multiplier effect on a logarithmic scale. It is a catalyst that drives scientific revolutions and epoch-making paradigm shifts.”
“Harvard is making significant institutional investments in its quantum enterprise and in the creation of a new field,” said Science Division Dean Christopher Stubbs, Samuel C. Moncher Professor of Physics and of Astronomy. Stubbs added that several active searches are underway to broaden Harvard’s faculty strength in this domain, and current faculty are building innovative partnerships with industry around quantum research.
“An incredible foundation has been laid in quantum, and we are now at an inflection point to accelerate that activity,” said SEAS Dean Frank Doyle , John A. and Elizabeth S. Armstrong Professor of Engineering and Applied Sciences.
To enable opportunities to move from basic to applied research to translating ideas into products, Doyle described a vision for “integrated partnerships where we invite partners from the private sector to be embedded on the campus to learn from the researchers in our labs, and where our faculty connect to the private sector and national labs to learn about the cutting-edge applications and to help translate basic research into useful tools for society.”
Harvard will admit the first cohort of PhD candidates in fall 2022 and anticipates enrolling 35 to 40 students in the program. Participating faculty are drawn from physics and chemistry in Harvard’s Division of Science and in applied physics, electrical engineering, and computer science at SEAS.
The Graduate School of Arts and Sciences provides more information on Harvard’s PhD in Quantum Science and Engineering , including the program philosophy, curriculum, and requirements.
Harvard has a long history of leadership in quantum science and engineering. Theoretical physicist and 2005 Nobel laureate Roy Glauber is widely considered the founding father of quantum optics, and 1989 Nobel laureate Norman Ramsey pioneered much of the experimental foundation of quantum science.
Today, Harvard experimental research groups are among the leaders worldwide in areas such as quantum simulations, metrology, and quantum communications and computation, and are complemented by strong theoretical groups in computer science, physics, and chemistry.
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Sara Bleich, PhD ’07, the inaugural vice provost for special projects, discusses Harvard and the Legacy of Slavery’s areas of focus, its successes, and the special role that Harvard Griffin GSAS can play in contributing to the initiative.
How notaries—publicly licensed scribes who wrote contracts—were the computers of the Middle Ages.
PhD candidate Juana Catalina Becerra Sandoval explores the ethical considerations that must be applied to the development of artificial intelligence technologies like voice biometrics to ensure disenfranchised populations are not negatively impacted.
New research from PhD candidate Emily Meland provides a model for social and emotional learning in schools that is culturally sustaining
About the group.
Computer Science
A broad department enables in-depth coursework and research in every area of the discipline, including machine learning, security, robotics, and more.
Work alongside world-class researchers to develop new techniques, cutting-edge systems, and innovative algorithms as you tackle challenging problems with critical impacts across science, technology, and society.
In the PhD in Computer Science program at Columbia Engineering, you’ll find a vibrant, collaborative community of research with broad interests including natural language processing, security and privacy, graphics and user interfaces, computational biology, computer vision, robotics, machine learning, and artificial intelligence. Situated within a large research university, opportunities abound for multidisciplinary work through entities like the Data Science Institute and the Center of Artificial Intelligence Technology.
Columbia gives you a rigorous Ivy League education in the heart of a vibrant global city for unmatched opportunities and impact.
As a student, you’ll benefit from:
See Full Program Details
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Current research interests are focused on analog and mixed-signals systems, RF transceivers and RF systems in the microwave and mm-wave frequencies, implemented in a wide range of technologies from nm-CMOS to BiCMOS, wireless sensor networks, ultra-low-power SoC for biomedical and IoT applications, and open-source tools and flows for IC design:
• Advanced receiver and transmitter concepts and implementations for cellular and short-range wireless.
• Ultra-low-power radio-frequency designs for fully autonomous sensor networks and energy harvesting.
• Circuit blocks and RF systems in the mm-wave frequency range for communication and sensing.
• Analog, mixed-signal, and RF building blocks and techniques, ranging from high-performance implementations to ultra-low-power designs in the μW- and nW-regime. • Open-source IC design tools and flows.
Teaching at the JKU Linz
Currently supervising several Ph.D. students in the areas of analog, mixed-signal, and RF circuit design as well as biomedical electronics. Teaching responsibilities at the JKU include the following classes:
• Electronics (bachelor-level course for computer science majors)
• Analog circuit design (bachelor-level course for electronics majors)
• Design of complex integrated circuits (master-level course for electronics majors)
• Radio-frequency integrated circuits (master-level course for electronics majors)
• Seminars for B.Sc., M.Sc., and Ph.D. students
Dr. techn. degree (Ph. D.-equivalent) Johannes Kepler University, Linz, Austria. The thesis title is “Design of a Zero-IF Receiver for UMTS.”
Dipl.-Ing. degree (M. Sc.-equivalent) in Electrical Engineering with Distinction University of Technology, Graz, Austria. The thesis title is “Monolithic Integrated Down-Conversion Mixer with High Linearity and Low Noise for the 1-GHz Band.”
Full Professor, Johannes Kepler University Linz Chair of Institute for Integrated Circuits and Quantum Computing
PRETL consult GmbH Founder and general manager
Full Professor, Johannes Kepler University Linz Head of the Integrated Circuits Group
Member of the JKU/SAL IWS Lab
Guest Researcher at IHP Microelectronics Member of the core export group in the project FMD-QNC.
Co-Head of the LIT/SAL mmWave Lab Co-lead of the joint mm-wave research laboratory between Linz Institute of Technology (LIT) and Silicon Austria Labs (SAL). Jobe role encompasses the definition and execution of the research roadmap in the mm-wave regime, and the supervision of the Ph.D. students in the lab.
Cellular RF Architecture, Apple Cellular RF group, Hardware Technologies (HWTech)
Sr. Principal Engineer, Intel Corp. Cellular Radio and Connectivity Group (CRCG), Linz, Austria (DMCE GmbH & Co KG subsidiary) Job role as Chief RF Technologist included working on definition and implementation of cellular (LTEAdvanced and 5G NR) RF transceivers and radio subsystems in nm-CMOS as well as scouting and defining future technology roadmap.
Sr. Principal Engineer, Infineon Technologies RF Department, Linz, Austria (DICE GmbH & Co KG subsidiary) Project manager and group leader working on single-chip RF transceivers for UMTS and GSM in BiCMOS and CMOS technologies.
Researcher at the Institute for Communications Engineering, under supervision by Prof. Robert Weigel.
Associate Editor for Europa and Africa, IEEE Solid-State Circuits Magazine
Expert reviewer for the Israel Science Foundation
Expert reviewer for German Federal Ministry of Education and Research (BMBF)
Member of the Silicon Austria Labs Program Advisory Board
Member of the IEEE SSCS technical committee for the open-source ecosystem (TC-OSE)
IEEE Joint Communication & Sensing Symposium TPC
Austrochip TPC
Expert reviewer for Deutsche Forschungsgemeinschaft (DFG)
Austrochip 2021 Conference Chair
IEEE NEWCAS Track Chair
Intel RF Summit Conference
ISSCC TPC (RF subcommittee)
Reviewer for IEEE Journal of Solid-State Circuits (JSSC), IEEE Microwave and Wireless Components Letters (MWCL), IEEE Transactions on Microwave Theory and Techniques (T-MTT), IEEE Transactions on Circuits and Systems I: Regular Papers (TCAS-I), IEEE Solid-State Circuits Letters (SSC-L), FREQUENZ (DeGruyter), IEEE ISCAS 2021–2023, IEEE NEWCAS 2021, IEEE JC&S 2022–2024, CAE 2023–2024
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Further information.
Partner and Steering Committee Member of the Christian Doppler Laboratory for Digitally Assisted RF Transceivers for Future Mobile Communications at the Johannes Kepler University, Linz, Austria | |
Partner in EU H2020 Innovative Training Network (ITN) project ”RHUMBO” (member of the supervisory | |
JKU/SAL IWS Lab | |
Co-chair LIT/SAL mm-wave Lab | |
Lecturer in FFG project “Inno-EBS”, teaching courses in electronics, integrated circuit design, and wireless | |
Linz Institute of Technology (LIT) Ars Electronica Call
|
Rudolf-Trauner-Preis 2023 for BARNlabs and IIC (Prof. Pretl) | |
P. Fath and H. Pretl, Best Paper Award at IEEE NorCAS | |
M. Eberlein and H. Pretl, Best Paper Award at IEEE ISCAS | |
T. Schumacher, T. Faseth, and H. Pretl, IEEE APMC Student Prize | |
Intel Achievement Award | |
S. Schmickl, T. Faseth, and H. Pretl, ReSMiQ Best Paper Award at IEEE NEWCAS | |
Intel iCDG CRCG Division Recognition Award | |
J. Fuhrmann, P. Oßmann, K. Dufrene, H. Pretl, and R. Weigel, PAWR Student Paper Competition–First | |
Intel iCDG Excellence Award “SMARTi UE2p: The World’s Smallest Modem for the Internet of Things” |
Johannes Kepler University Linz
Altenberger Straße 69
4040 Linz, Austria
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Harvard launches phd in quantum science and engineering.
Harvard University announced today one of the world’s first PhD programs in Quantum Science and Engineering, a new intellectual discipline at the nexus of physics, chemistry, computer science and electrical engineering with the promise to profoundly transform the way we acquire, process and communicate information and interact with the world around us.
With the launch of the PhD program, Harvard is making the next needed commitment to provide the foundational education for the next generation of innovators and leaders who will push the boundaries of knowledge and transform quantum science and engineering into useful systems, devices and applications.
"The new PhD program is designed to equip students with the appropriate experimental and theoretical education that reflects the nuanced intellectual approaches brought by both the sciences and engineering," said faculty co-director Evelyn Hu, Tarr-Coyne Professor of Applied Physics and of Electrical at the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS). "The core curriculum dramatically reduces the time to basic quantum proficiency for a community of students who will be the future innovators, researchers and educators in quantum science and engineering."
"Quantum science and engineering is not just a hybrid of subjects from different disciplines, but an important new area of study in its own right,” said faculty co-director John Doyle, Henry B. Silsbee Professor of Physics.“A Ph.D. program is necessary and foundational to the development of this new discipline."
The new program lies at the interface of physics, chemistry, and engineering, providing students with exciting opportunities to explore the fundamentals, realizations, and applications of QSE. Students of diverse backgrounds will benefit from an integrated curriculum designed to dramatically reduce the time to basic quantum proficiency and to equip students with experimental and theoretical education that reflects the nuanced intellectual approaches brought by both the sciences and engineering. Students will have the opportunity to work with state-of-the-art experimental and computational facilities. Integrating a new approach to interdisciplinary scholarship, graduates of the program will be prepared for careers in academia, industry, and national laboratories.
Research is a primary focus of the program, with students beginning research rotations in their first year. Extensive mentoring and advising is embedded in the program: graduate students in QSE are part of an academic community that cuts across departments and schools and, as such, are strongly encouraged to pursue cross-disciplinary research. In addition to their research, QSE PhD students will receive training in communication and professional opportunities, such as industry internships.
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A list of the best universities for quantum computing graduate programs, with brief descriptions of their research topics, projects, and opportunities. Learn about the top quantum computing Ph.D. and master's programs in the US, Canada, and the UK.
Learn about the new PhD program in Quantum Science and Engineering, launching in Fall 2023. Explore the interdisciplinary research and curriculum at the intersection of quantum physics and information theory at Princeton.
Learn about the first-of-its-kind interdisciplinary program that covers quantum science and engineering (QSE) at Harvard. Explore the areas of study, admissions requirements, faculty, and application deadline for the PhD degree.
Harvard University announced one of the world's first PhD programs in Quantum Science and Engineering, a new intellectual discipline at the nexus of physics, chemistry, computer science and electrical engineering. The program will prepare students to become the leaders and innovators in the emerging field of quantum science and engineering, and will benefit from Harvard's robust quantum research community and resources.
Learn about the PhD program in Quantum Science and Engineering at the University of Chicago, which covers quantum computing, communications, sensing, and materials. Explore the curriculum, faculty, facilities, and opportunities for students in this interdisciplinary field.
Learn about the interdisciplinary Ph.D. program in Quantum Science and Engineering at Princeton, which combines coursework and research in quantum physics and information theory. Find out the application deadline, program length, requirements, and courses for this emerging field of study.
The PhD in Quantum Computing is a unique doctoral program designed to meet the immediate industry need for innovative researchers and practitioners. Professionals will graduate with the skills necessary to become key leaders in the advancement, expansion, and support of the this rapidly growing industry. ...
The School of Computing at Newcastle University is advertising a number of PhD projects in the areas of data science and computer vision, cybersecurity, human computer interaction, internet of things, distributed systems, and many more. Read more. Self-Funded PhD Students Only Computing PhD Programme. More Details.
"Quantum computing has the potential to solve some of the world's biggest problems. I'm proud to be a part of a team here making that happen." ... 100% of PhD students start research in their first year; PME's leading faculty experts unite eight scientific and engineering disciplines through an innovative interdisciplinary curriculum;
Quantum Computing & Simulation; Quantum Courses at Columbia; Masters Programs. Master of Science in Quantum Science and Technology; ... PhD Students; PhD Students. A Q&A On Quantum Transitions. Chemistry in a Vacuum. Columbians at QIP 2024. Emma Xu - Finding One's Path through Science.
Harvard is one of the world's first universities to offer a Ph.D. in quantum science and engineering, a field that promises to revolutionize computing and innovation. Learn about the program, the research, and the partnerships that make Harvard a leader in quantum science and technology.
The best PhD quantum computing programs offer quality instruction in advanced quantum computing topics, research work, and unique assistantship opportunities. Some institutions also offer the flexibility of online learning. Keep reading for an overview of the best quantum computing PhD programs, including admission requirements and funding ...
Launched in spring 2021, the new quantum program is one of the world's earliest Ph.D. programs in the subject and is designed to prepare future leaders and innovators in the critical and fast-emerging field. "It's helped us start creating a culture for the program," said Nazli Ugur Koyluoglu, referring to the designated office and ...
Graduate studies. The University of Waterloo, in collaboration with the Institute for Quantum Computing (IQC), offers graduate students unique opportunities to learn about and engage in world-leading research in quantum information through a wide range of advanced research projects and advanced courses on the foundations, applications and ...
Apply to the new quantum computing and quantum communications PhD programme; Deadline for applications: Sunday 4 February 2024 at 23:59 UTC. We particularly encourage applications from female students & students of minority ethnic backgrounds as these are currently underrepresented within the field of quantum technologies.
Quantum computing promises to be the next paradigm of computing, harnessing the principles of quantum physics to perform computations and conduct tasks impossible for classical architectures. Today, researchers in academia and industry rapidly advance the field by designing new hardware, software, and algorithms that bring quantum computers closer to their great potential for unlocking new ...
Doctoral Student Research in Quantum Computing. Quantum computing has emerged as an alternative computational model. Realizing the practical acceleration using a Noisy Intermediate-Scale Quantum computer is one of the most important problems of our century. While prototypes are being built now, moving computations to a fully-functional fault ...
The Quantum Science and Technologies PhD track is organized around six pillars: Quantum Materials. Quantum Simulation. Quantum Computation. Quantum Sensing and Metrology. Quantum Communication and Networking. Quantum Information Processing. It aims at providing the students with a high level education at the state of the art of quantum physics ...
Join the quantum revolution at Harvard. We are witnessing the birth of Quantum Science & Engineering, an event no less significant than the advent of the physics and engineering of electronics at the beginning of the last century. This new discipline demands new approaches to educating the rising generations of researchers who will require deep knowledge of science and engineering principles.
Thesis topics have to cover quantum computing, quantum simulation, quantum communication, quantum sensors or quantum metrology. QuantAlps-Labex - We are seeking talented and motivated applicants in the domains of physics, computer science, electrical engineering, mathematics, and humanities, for a PhD thesis in quantum sciences. The PhD ...
The Novo Nordisk Foundation Quantum Computing Programme (NQCP) is establishing a talented and diverse international team to create a cutting-edge quantum programme in the heart of Copenhagen, Denmark. ... The PhD project will investigate quantum systems which naturally perform certain aspects of quantum algorithms. The aim is to draw upon the ...
CAMBRIDGE, MA (Monday, April 26, 2021) - Harvard University today announced one of the world's first PhD programs in Quantum Science and Engineering, a new intellectual discipline at the nexus of physics, chemistry, computer science, and electrical engineering with the promise to profoundly transform the way we acquire, process and communicate information and interact with the world around us.
The Berkeley Center for Quantum Information and Computation brings together researchers from the colleges of Chemistry, Engineering and Physical Sciences to work on fundamental issues in quantum algorithms, quantum cryptography, quantum information theory, quantum control and the experimental realization of quantum computers and quantum devices ...
In the PhD in Computer Science program at Columbia Engineering, you'll find a vibrant, collaborative community of research with broad interests including natural language processing, security and privacy, graphics and user interfaces, computational biology, computer vision, robotics, machine learning, and artificial intelligence. ...
Current research interests are focused on analog and mixed-signals systems, RF transceivers and RF systems in the microwave and mm-wave frequencies, implemented in a wide range of technologies from nm-CMOS to BiCMOS, wireless sensor networks, ultra-low-power SoC for biomedical and IoT applications, and open-source tools and flows for IC design:
April 26, 2021. Harvard University announced today one of the world's first PhD programs in Quantum Science and Engineering, a new intellectual discipline at the nexus of physics, chemistry, computer science and electrical engineering with the promise to profoundly transform the way we acquire, process and communicate information and interact ...
PhD Trapped-ion Quantum Computing Theory Intern Quantinuum London, London. Apply. JOB DETAILS. LOCATION. London, London. POSTED. 3 days ago. Science Led, Enterprise Driven - Accelerating Quantum Computing . Quantinuum is the world's largest integrated quantum company, pioneering powerful quantum computers and advanced software solutions ...