Commercial quantum
computers based on
ion trap technology.

Our Mission

Ion trap technology belongs to the most promising hardware architectures to realize a practical quantum computer. Besides record-high fidelities for elementary operations, trapped ion qubits have the key-advantage of long coherence times to store quantum information and to be intrinsically equal by nature.

In our approach the qubits are confined by static and oscillating electric fields above the surface of a microfabricated quantum processor. For coherent qubit control we utilize a unique microwave approach pioneered by our co-founder Prof. Ospelkaus in 2008 (theory) and 2011 (demonstration) during his work with the nobel laureate Dave Wineland.

Our Story

Ion trap technology belongs to the most promising hardware architectures to realize a practical quantum computer. Besides record-high fidelities for elementary operations, trapped ion qubits have the key-advantage of long coherence times to store quantum information and to be intrinsically equal by nature.

In our approach the qubits are confined by static and oscillating electric fields above the surface of a microfabricated quantum processor. For coherent qubit control we utilize a unique microwave approach pioneered by our co-founder Prof. Ospelkaus in 2008 (theory) and 2011 (demonstration) during his work with the nobel laureate Dave Wineland.

Our Story

Ion trap technology belongs to the most promising hardware architectures to realize a practical quantum computer. Besides record-high fidelities for elementary operations, trapped ion qubits have the key-advantage of long coherence times to store quantum information and to be intrinsically equal by nature.

In our approach the qubits are confined by static and oscillating electric fields above the surface of a microfabricated quantum processor. For coherent qubit control we utilize a unique microwave approach pioneered by our co-founder Prof. Ospelkaus in 2008 (theory) and 2011 (demonstration) during his work with the nobel laureate Dave Wineland.

Our Team

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Feugiat nulla suspendisse tortor aene.

DR. GIORGIO ZARANTONELLO

CTO & CO-FOUNDER

DR. GIORGIO ZARANTONELLO

CTO & CO-FOUNDER

PROF. ANDREAS WAAG

ADVISOR & CO-FOUNDER

PROF. ANDREAS WAAG

ADVISOR & CO-FOUNDER

DR. AMADO
BAUTISTA

CEO & CO-FOUNDER

DR. AMADO
BAUTISTA

CEO & CO-FOUNDER

DR. HENNING
HAHN

COO & CO-FOUNDER

DR. HENNING
HAHN

COO & CO-FOUNDER

PROF. CHRISTIAN
OSPELKAUS

ADVISOR & CO-FOUNDER

PROF. CHRISTIAN
OSPELKAUS

ADVISOR & CO-FOUNDER

PROF. PIET
O. SCHMIDT

ADVISOR & CO-FOUNDER

PROF. PIET
O. SCHMIDT

ADVISOR & CO-FOUNDER

Careers

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Feugiat nulla suspendisse tortor aene.

Executive Assistant

CONTACT US AT JOBS@QUDORA.COM

Quantum Hardware Engineer

CONTACT US AT jobs@qudora.com

Quantum Software Engineer

CONTACT US AT jobs@qudora.com

News

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Feugiat nulla suspendisse tortor aene.

May 2, 2024

QUDORA becomes official member of QVLS ecosystem and Quantum Business Network

Quantum Business Network https://qbn.world/ Quantum Valley Lower Saxony https://qvls.de/en/new-members-at-qvls-e-v-welcome-tuev-nord-hannoverimpuls-nord-lb-and-qudora/

October 28, 2022

QUDORA and NXP win €42m contract with German Aerospace Center to build 50-qubit quantum computer

QUDORA Technologies GmbH and NXP Semiconductors GmbH have signed a €42m contract with the German Aerospace Center (DLR) to develop and operate a powerfull quantum computer in Hamburg. At the heart of the so-called XAPHIRO system is a 50-qubit quantum processor developed by QUDORA while NXP Semiconductors provides a specially developed photon detector based on Complementary Metal Oxide Semiconductor (CMOS) technology. The project also focuses on the development of a suitable platform that is accessible for different user groups and features a user-friendly interface. https://qci.dlr.de/en/xaphiro/ https://qci.dlr.de/en/project-xaphiro-kick-off-for-the-ion-trap-consortium-qudora-x-nxp-at-the-innovation-center-hamburg/

July 19, 2022

QUDORA wins Cluster4Future project with Lower Saxony’s QT ecosystem funded by BMBF with €15m

https://www.mwk.niedersachsen.de/startseite/aktuelles/presseinformationen/bund-fordert-niedersachsische-qvls-ilabs-mit-15-millionen-euro-213655.html

April 22, 2022

QUDORA is nominated to Lower Saxony’s Innovation Award in 2022

QUDORA has been nominated to the Innovation Award of Lower Saxony in 2022 in the category “Vision”. In our application project, QUDORA aims to bring customer-tailored quantum processors to the market. https://www.mw.niedersachsen.de/startseite/uber_uns/presse/presseinformationen/innovationspreis-niedersachsen-2022-das-sind-die-nominierten-210877.html

Get in touch

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Feugiat nulla suspendisse tortor aene.