Centre for Quantum Engineering, CQE

CQE

Centre for Quantum Engineering (CQE) tackles the most challenging scientific and technological questions, to release the full potential of our expertise for the benefit of industry and society.

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Ville Maisi at PICO lab

CQE research activities

Our research is distributed around four core areas of European interest; quantum sensing, simulation, communication and computing, that are supported by internationally esteemed expertise in quantum enabling technologies.

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Aalto yliopisto piisirulla
Quantum Garden

Aalto Quantum Play

Aalto Quantum Play är ett tvärvetenskaplig forsknings- och konstprojekt som för samman fysiker, speltillverkre och konstnärer för att utforska kvantteknologi genom spel och lekfull konst. Projektet kommer att erbjuda en plattform för alla möjliga sorters samarbete: mellan studerande, personal och besökande forskare och konstnärer. Längden av projektet är fyra år med start 2019 och slut 2022. Aalto Quantom Play är del av ett större Qplay-samarbete mellan Aalto-universitetet och Åbo universitet. 

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Grupper

Pico - Quantum Phenomena and Devices

We investigate mesoscopic physics and its sensor applications. The main focus is on charge transport and thermal properties of metallic, superconducting and hybrid nanostructures.

Samples

Quantum Circuits and Correlations (NANO)

Nano group of the Low Temperature Laboratory investigates fundamental quantum phenomena in nanostructures using low temperature and electronic transport measurements.

Nano cryostat

Quantum Nanomechanics

The NEMS group focuses on studies of micro- and nanomechanical resonators near the quantum ground state of moving objects.

An illustration of the 15-micrometre-wide drumheads prepared on silicon chips used in the experiment. The drumheads vibrate at a high ultrasound frequency, and the peculiar quantum state predicted by Einstein was created from the vibrations. Image: Aalto University / Petja Hyttinen & Olli Hanhirova, ARKH Architects.

Superconducting Qubits and Circuit QED (KVANTTI)

Our group is part of the effort in nanoelectronics in the Low Temperature Laboratory, Department of Applied Physics. The group is doing research in such fields as quantum information and quantum-level effects in superconducting devices, quantum coherent matter, and interaction of electromagnetic fields with nano-structured materials.

Artistic impression of the sample, the pulse sequence, and the density matrix. Image by Antti Paraoanu.

Quantum Computing and Devices (QCD)

We have a major effort on experimental low-temperature physics, but we also carry out computational and theoretical work down to fundamental quantum mechanics.

Magneettinen monopoli

Quantum Dynamics (QD)

The research interests of the QD group are quantum coherent dynamics and quantum many-body phenomena in designed nanosystems.

Plasmon BEC

Nanoscience and Advanced Materials

The Nanoscience and Advanced Materials group is part of the Department of Electronics and Nanoengineering, Aalto University. The group is located in the nanofabrication research center Micronova and has about 15 researchers. The group hosts Tekes-funded FiDiPro (Finland Distinguished Professor) Nasser Peyghambarian from University of Arizona jointly with University of Eastern Finland. Research is mainly funded by external sources, especially the National Technology Agency (Tekes), the Academy of Finland, EU, ESA and industry.

Nanotechnology Group

Photonics

The Photonics Group is part of the Department of Electronics and Nanoengineering, Aalto University. The group studies electrical and optical properties of various nanomaterials for photonic and optoelectronic applications. The group is located in the Micronova Research Center.

Nanowire optical gate

Nanomagnetism and Spintronics (NanoSpin)

The Nanomagnetism and Spintronics (NanoSpin) Group focuses on experimental studies of magnetic, magneto-optical, and spin-transport phenomena in new functional materials and hybrid nanoscale structures.

Main-image2

Atomic Scale Physics

We focus on the experimental study of nanostructures, where the precise nature and location of every atom matters.

Atomic scale physics

Micro and Quantum Systems

The Micro and Quantum Systems group is part of the Department of Electronics and Nanoengineering, Aalto University. The group is located in the nanofabrication research center Micronova.

Micro and Quantum Systems Group

Quantum Transport (QT)

The research group works on theoretical problems in quantum transport.

QT_figure

Theory of Quantum Matter (TQM)

Our research concentrates on fundamental properties of matter.

Aalto University/Theory of Quantum Matter

Multiscale Statistical and Quantum Physics (MSP)

The MSP group is recognised worldwide in the development of multi-scale and coarse-graining methodologies and their application to condensed matter systems.

Multiscale Statistical and Quantum Physics (MSP)

Surfaces and Interfaces at the Nanoscale (SIN)

In the SIN group we apply and develop various atomistic and quantum mechanical simulation methods to study surface and interface physics at the nanoscale, with particular emphasis on working closely with experimentalists and technologists.

SIN group

Computational Electronic Structure Theory (CEST)

CEST is developing electronic structure and machine learning methods and applying them to computational materials science problems.

CEST group photo
CQE logo

Scientific Board

The Scientific Board supports the development of the centre, gives recommendations and considers the big picture in the field of quantum engineering.

Centre for Quantum Engineering, CQE
Materials Platform Launch. Image: Mikko Raskinen.

Visitors

Annually, the CQE groups host over 50 equivalent visitor-months from around the world.

Centre for Quantum Engineering, CQE

Nyheter

Wafer of qubits
Universitetet Publicerat:

Spinout från Aalto-universitetet specialiserat på kvantberäkningar tilldelas 11,45 miljoner €

IQM vill kommersialisera banbrytande forskning från Aalto och VTT
Artictic impression of a quantum resonator coupled to environmental modes
Pressmeddelanden Publicerat:

Kvantfysiker lyckades kontrollera energiförluster och växlingar

Resultaten kan användas för att snabba upp kvantdatorer och för att designa nya kvanttekniska uppfinningar
Elektronimikroskooppikuva Corbino-laitteesta: vihreäksi väritettyyn grafeeniin havaittiin muodostuvan elektronikide, kaksi-dimensioinen Wignerin hila, joka koostui noin 20 kristalliitista. Kuva: Antti Laitinen.
Vetenskap & konst Publicerat:

Den första bekräftelsen av Wigner-kristallen i grafen banar vägen för nya kvantberäkningar

Exotiska elektronarrangemang kan studeras i grafen, med tänkbara applikationer såsom kvantberäkningar.
Aalto University Quantum Bit Silicon Chip. Image: Jan Goetz.
Pressmeddelanden Publicerat:

EU beviljar en miljard euro till forskning inom kvantfysik och -teknik – Aalto-universitetet deltar i tre projekt

Aalto-universitetets forskningsgrupper kommer att studera och utveckla tekniker inom kvantkommunikation, ultrakänsliga magnetsensorer baserade på kvantoptik, och fotonavsöndrande kvantchipp.
CQE Showroom
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