University of Stuttgart

SPIE Photonics West 2024 Opens for Registration

Retrieved on: 
Thursday, October 5, 2023

Registration has opened for SPIE Photonics West 2024 , which will run from 27 January to 1 February at the Moscone Center in San Francisco.

Key Points: 
  • Registration has opened for SPIE Photonics West 2024 , which will run from 27 January to 1 February at the Moscone Center in San Francisco.
  • View the full release here: https://www.businesswire.com/news/home/20231005492002/en/
    Attendees at SPIE Photonics West 2023 (Photo: Business Wire)
    SPIE Photonics West has four major application areas emphasizing the latest technologies and discoveries that utilize optics and photonics.
  • All three exhibitions and the industry program are free to attend with a SPIE Photonics West registration.
  • “Photonics West 2024 promises to be an engaging and thought-provoking week of networking and learning opportunities,” said SPIE Senior Director of Technical Programs Marilyn Gorsuch.

Quantinuum's H1 quantum computer successfully executes a fully fault-tolerant algorithm with three logically-encoded qubits

Retrieved on: 
Thursday, September 28, 2023

CAMBRIDGE, England and BROOMFIELD, Colo., Sept. 28, 2023 /PRNewswire/ -- Fault-tolerant quantum computers that offer radical new solutions to some of the world's most pressing problems in medicine, finance and the environment, as well as facilitating a truly widespread use of AI, are driving global interest in quantum technologies. Yet the various timetables that have been established for achieving this paradigm require major breakthroughs and innovations to remain achievable, and none is more pressing than the move from merely physical qubits to those that are fault-tolerant.

Key Points: 
  • In one of the first meaningful steps along this path, scientists from Quantinuum , the world's largest integrated quantum computing company, along with collaborators, have demonstrated the first fault-tolerant method using three logically-encoded qubits on the Quantinuum H1 quantum computer, Powered by Honeywell, to perform a mathematical procedure.
  • Fault-tolerant quantum computing methods are expected to open the way for practical solutions to real-world problems across domains such as molecular simulation, artificial intelligence, optimization, and cybersecurity.
  • Many companies and research groups are focused on achieving fault-tolerance by handling the noise that naturally arises when a quantum computer performs its operations.
  • This result proves that real hardware is now capable of running all the essentials of fault-tolerant quantum computing – state preparation, Clifford gates, non-Clifford gates and logical measurement – together."

Quantinuum's H1 quantum computer successfully executes a fully fault-tolerant algorithm with three logically-encoded qubits

Retrieved on: 
Thursday, September 28, 2023

CAMBRIDGE, England and BROOMFIELD, Colo., Sept. 28, 2023 /PRNewswire/ -- Fault-tolerant quantum computers that offer radical new solutions to some of the world's most pressing problems in medicine, finance and the environment, as well as facilitating a truly widespread use of AI, are driving global interest in quantum technologies. Yet the various timetables that have been established for achieving this paradigm require major breakthroughs and innovations to remain achievable, and none is more pressing than the move from merely physical qubits to those that are fault-tolerant.

Key Points: 
  • In one of the first meaningful steps along this path, scientists from Quantinuum , the world's largest integrated quantum computing company, along with collaborators, have demonstrated the first fault-tolerant method using three logically-encoded qubits on the Quantinuum H1 quantum computer, Powered by Honeywell, to perform a mathematical procedure.
  • Fault-tolerant quantum computing methods are expected to open the way for practical solutions to real-world problems across domains such as molecular simulation, artificial intelligence, optimization, and cybersecurity.
  • Many companies and research groups are focused on achieving fault-tolerance by handling the noise that naturally arises when a quantum computer performs its operations.
  • This result proves that real hardware is now capable of running all the essentials of fault-tolerant quantum computing – state preparation, Clifford gates, non-Clifford gates and logical measurement – together."

Keysight Enabling University of Stuttgart to Advance 6G Integrated Circuits Research

Retrieved on: 
Tuesday, August 8, 2023

Keysight Technologies, Inc. (NYSE: KEYS) is enabling the University of Stuttgart to conduct foundational research essential to development of new integrated circuits (ICs) for 6G technology with the new Keysight 6G Vector Component Analysis (VCA) solution .

Key Points: 
  • Keysight Technologies, Inc. (NYSE: KEYS) is enabling the University of Stuttgart to conduct foundational research essential to development of new integrated circuits (ICs) for 6G technology with the new Keysight 6G Vector Component Analysis (VCA) solution .
  • This is the latest collaboration from Keysight and the University of Stuttgart’s long-time research relationship.
  • The collaboration has supported the University of Stuttgart in establishing Crosslink, a versatile multiplexing platform for synchronous time- and frequency-domain analyses of ultra-broadband communication channels.
  • The Keysight and University of Stuttgart collaboration supports a large-scale equipment initiative funded by the German Research Foundation (DFG).

Frank Leymann is Named First WSO2 Technology Fellow

Retrieved on: 
Thursday, August 3, 2023

Santa Clara, CA, Aug. 03, 2023 (GLOBE NEWSWIRE) -- WSO2 , the leader in digital transformation technology, today announced that Prof. Dr. Frank Leymann has been named the first WSO2 Technology Fellow, the highest technical rank in the company.

Key Points: 
  • Santa Clara, CA, Aug. 03, 2023 (GLOBE NEWSWIRE) -- WSO2 , the leader in digital transformation technology, today announced that Prof. Dr. Frank Leymann has been named the first WSO2 Technology Fellow, the highest technical rank in the company.
  • Honorees are appointed by a committee of peers within WSO2 that includes the CEO, senior technical executives, and any current Technology Fellows.
  • As our first Technology Fellow, he is an exceptional candidate without parallel in WSO2.”
    Prior to becoming a WSO2 Technology Fellow, Frank Leymann served as a consultant architect at WSO2 for nearly a decade.
  • So, it is a particular honor to be recognized as a WSO2 Technology Fellow,” said Frank.

Nano Dimension Announces Sale to the University of Stuttgart Additively Manufactured Electronics (AME) DragonFly® IV System to be Used In Development of Quantum Sensors

Retrieved on: 
Monday, June 26, 2023

Nano Dimension’s most advanced 3D printer for electronics will go to the University’s Institute of Smart Sensors (IIS) and 3rd Institute of Physics (PI3).

Key Points: 
  • Nano Dimension’s most advanced 3D printer for electronics will go to the University’s Institute of Smart Sensors (IIS) and 3rd Institute of Physics (PI3).
  • The two groups are jointly working on the design and the integration of next-generation quantum devices as part of a government sponsored program known as Cluster4Future QSens (“QSens”).
  • This is particularly empowering when the work at-hand is the scalable integration of qubits for quantum sensing and computing.
  • This field is perfect use case for our AME system, DragonFly® IV, which can be used to make specialty electronic devices with the design freedom and shorter innovation cycles of additive manufacturing.”

Oncomatryx acquires Tube Pharmaceuticals GmbH to consolidate its pioneering pipeline of ADCs targeting the tumor microenvironment

Retrieved on: 
Thursday, May 18, 2023

The multimillion €uros transaction is a strategic decision by Oncomatryx that will foster its leadership in the field of ADCs targeting the tumor microenvironment.

Key Points: 
  • The multimillion €uros transaction is a strategic decision by Oncomatryx that will foster its leadership in the field of ADCs targeting the tumor microenvironment.
  • It culminates a decade-long alliance between Oncomatryx and Tube that has already rendered clinical-stage ADCs targeting the Tumor Microenvironment.
  • Oncomatryx's pioneering drug OMTX705, which incorporates the cytolysin toxic payload developed by Tube, is a first-in-class antibody-drug conjugate targeting cancer-associated fibroblasts.
  • Oncomatryx now owns the comprehensive portfolio of cytolysins synthesized by Tube and the cutting-edge technology developed in its laboratories.

Meyer Burger establishes new partnerships for the development of high-performance solar modules with perovskite technology

Retrieved on: 
Sunday, December 18, 2022

“With a long tradition of proprietary development, Meyer Burger has an extensive portfolio of processes, technologies, and production techniques at its disposal for the potential mass production of tandem solar cells and modules in-house,” says Marcel König, Head of Research and Development at Meyer Burger.

Key Points: 
  • “With a long tradition of proprietary development, Meyer Burger has an extensive portfolio of processes, technologies, and production techniques at its disposal for the potential mass production of tandem solar cells and modules in-house,” says Marcel König, Head of Research and Development at Meyer Burger.
  • “This includes the essential manufacturing processes and machinery for silicon-based perovskite tandem solar cells, as well as corresponding solar modules with Meyer Burger’s proprietary SmartWire connection technology.
  • Together with its partners, Meyer Burger is already achieving some initial successes when it comes to the industrialization of perovskite technology.
  • For example, CSEM and Meyer Burger have achieved a record efficiency of 29.6 percent for a 25-square-centimeter perovskite tandem solar cell.

NASA's Retired SOFIA Aircraft Finds New Home at Arizona Museum

Retrieved on: 
Monday, December 12, 2022

WASHINGTON, Dec. 12, 2022 /PRNewswire/ -- NASA's now-retired Stratospheric Observatory for Infrared Astronomy (SOFIA) aircraft will find a permanent home in the Pima Air & Space Museum in Tucson, Arizona.

Key Points: 
  • WASHINGTON, Dec. 12, 2022 /PRNewswire/ -- NASA's now-retired Stratospheric Observatory for Infrared Astronomy (SOFIA) aircraft will find a permanent home in the Pima Air & Space Museum in Tucson, Arizona.
  • It will land in Tucson at the Davis-Monthan Air Force Base before ultimately arriving at the Air & Space Museum.
  • "We are excited SOFIA will continue to engage a diverse new generation of scientists, engineers, and explorers."
  • The SOFIA aircraft is a Boeing 747SP jetliner modified to carry a reflecting telescope.

No Phosphine on Venus-According to SOFIA Observations

Retrieved on: 
Tuesday, November 29, 2022

Its observations did not find phosphine in Venus's atmosphere which is a potential biomarker and could be an indicator of organic matter, or life.

Key Points: 
  • Its observations did not find phosphine in Venus's atmosphere which is a potential biomarker and could be an indicator of organic matter, or life.
  • Venus is considered Earth's twin in many ways, but, thanks to SOFIA, the one difference now seems clearer: Unlike Earth, Venus does not have any obvious phosphine.
  • Phosphine is a gas found in Earth's atmosphere, but the announcement of phosphine discovered above Venus's clouds made headlines in 2020.
  • Despite the fact the group did not find phosphine after the stressful observations, the study was a success.