Take a quantum leap in education with the Quantum Technologies Summer School 2025, co-organized by Fachhochschule Technikum Wien, the Institute of Physics Slovak Academy of Science and QUTE.sk – Slovak National Center for Quantum Technologies.
Join us for a week of insightful talks from industry and scientific experts with hands-on experiments in the field of quantum technology – no prior knowledge in quantum physics required.
When
August 11-14, 2025
Where
Fachhochschule Technikum Wien,
Höchstädtplatz 6
1200 Vienna
Event Fee
50€
Registration
open until July 20th or capacity reached
Primary Language(s)
English
Contact
qute2025@technikum-wien.at
| Program⟩
The Summer School Program consists of presentations from industry and scientific experts from morning to lunch break and hands-on workshops in the afternoon. For the workshops on Monday through Wednesday, participants will be split into subgroups matching their preferences. On Thursday participants are free to join any workshop of interest. A detailed description of available topics and experiments are listed below.
Time Table | Monday, 11.8. | Tuesday, 12.8. | Wednesday, 13.8. | Thursday 14.8. |
|---|---|---|---|---|
9:00 – 10:00 | Arrival & Registry | Presentation | Presentation | Presentation |
10:00 – 11:00 | WELCOME TALK | Presentation | Presentation | Presentation |
11:00 – 11:30 | Coffee Break | Coffee Break | Coffee Break | Coffee Break |
11:30 – 12:30 | Presentation | Presentation | Presentation | Presentation |
12:30 – 13:30 | Lunch Break | Lunch Break | Lunch Break | Lunch Break |
13:30 – 17:00 | Hands-On Workshops | Hands-On Workshops | Hands-On Workshops | Hands-On Workshops |
Developing Quantum Algorithms
A quantum algorithm is an algorithm that runs on a realistic model of quantum computation, the most commonly used model being the quantum circuit model of computation. The circuits represent a step-by-step instruction for solving a problem, where each step acts on some qubits and terminates with a measurement.
In this workshop you will explore well-known quantum algorithms like Deutsch-Jozsa, Shor’s and Grover’s mathematically, and determined how they can be implemented on a quantum computer. The algorithms are based on commonly used techniques such as phase kickback, quantum Fourier transform, amplitude amplification and phase estimation.
Hands-On Workshop
- explore the mathematical tools for quantum algorithms
- learn about the structure of basic quantum algorithms
- calculate and determine the quantum circuit for the respective algorithms
Quantum Computing with Trapped Ions
A trapped-ion quantum computer is one proposed approach to a large-scale quantum computer, where ions are confined and suspended in free space using electromagnetic fields.
In this workshop you will explore how quantum information can be transferred through the collective quantized motion of the ions in a shared trap. Lasers are applied to induce coupling between the qubit states or coupling between the internal qubit states and the external motional states.
Hands-On Workshop
- get theoretical and practical insight into trapped ion computing
- learn about the techniques to create qubits and quantum gates
Quantum Cryptography using the BB84 Protocol
Quantum key distribution (QKD) is a secure communication method that implements a cryptographic protocol involving components of quantum mechanics. It enables two parties to produce a shared random secret key known only to them, which then can be used to encrypt and decrypt messages.
In this workshop you will explore the first secure QKD protocol that allows two parties to securely communicate a private key for use in one-time pad encryption. It relies on the quantum principle that any attempt to gain information about non-orthogonal quantum states inevitably disturbs the signal.
Hands-On Workshop
- setup and execute the BB84 protocol to obtain a secret key
- encrypt and decrypt a short message
- demonstrate the security of the protocol and analyze the impact of an eavesdropper
Quantum Programming with Qiskit
Quantum programming refers to the process of designing and implementing algorithms that operate on quantum systems, typically using quantum circuits composed of quantum gates, measurements, and classical control logic. These circuits are developed to manipulate quantum states for specific computational tasks or experimental outcomes. Quantum programs may be executed on quantum processors or simulated on classical hardware.
In this workshop you will explore how qubits and gates are implemented using the open-source python-based software Qiskit. The scripts will be run on quantum simulators and visualized on a Bloch sphere.
Hands-On Workshop
- learn about the basic methods and functions of Qiskit
- run quantum circuits on a quantum simulator and visualize qubits on a Bloch sphere
We recommend this workshop to applicants, which are already familiar with python or any another programming language. Basic concepts of programming will not be covered (e.g. variables, data types, control flow, python syntax, etc.).
Didactic Methods in Quantum Physics
Teaching the concepts of quantum physics provides unique challenges, which often arise from its abstract formalism, counterintuitive principles, and departure from classical reasoning. These difficulties can lead to persistent misconceptions and hinder conceptual understanding among learners.
In this workshop we bring together educators and researchers to explore effective didactic approaches that bridge the gap between formal theory and intuitive comprehension, aiming to make quantum physics more accessible and meaningful in educational settings.
Hands-On Workshop
- learn about effective didactic methods to convey the complex and abstract topics in quantum physics
- share training experiences and stay current with the latest developments in the field
| Meet our Speakers⟩
Andreas Schell
JKU Linz
Institute of Semiconductor and Solid State Physics
Rudolf Ramler
SCC Hagenberg
Research Manager Software Science
Speaker Name
Association
Institute, Position or Topic
Speaker Name
Association
Institute, Position or Topic
ORGANIZERS:
Organization Committee
Hermann Detz
Matthias Blatnik
Pamina Pawelka
Diana Cencer Garafova
Mario Ziman
Djeylan Aktas
Pavol Surovec
| Past Events⟩
Not sure what to expect? Read more about 2024!
Read about the highlights from Quantum Technologies Summer School 2024 in Bratislava! The Faculty of Mathematics, Physics, and Informatics offered participants a unique blend of theoretical and practical learning in the cutting edge field of quantum technologies. Read more about the projects and lectures offered in the Summer School of 2024 and browse through the picture gallery to get an impression.
Still not convinced? Have a look at 2023!
If you are still unsure, have a sneak peek at the Quantum Technologies Summer School 2023 at the FH Technikum Vienna.
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