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Delft University of Technology

Delft University of Technology

Delft University of Technology is a Delft-based company founded in 1842.

Delft University of Technology is a public research university which focuses their research on emerging technologies. This research has included the use of recycled materials and recycled concrete in the manufacture of concrete.

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Science X staff
August 10, 2021
phys.org
Attitudes to earthen homes need to change to prevent millions of them being replaced by buildings made from more environmentally-damaging materials, scientists warn.
Science X staff
June 2, 2021
phys.org
Atomically thin van der Waals magnets are widely seen as the ultimate compact media for future magnetic data storage and fast data processing. Controlling the magnetic state of these materials in real-time, however, has proven difficult. But now, an international team of researchers led by Delft University of Technology (TU Delft) has managed to use light in order to change the anisotropy of a van der Waals antiferromagnet on demand, paving the way to new, extremely efficient means of data storage.
Science X staff
May 3, 2021
phys.org
Living materials, which are made by housing biological cells within a non-living matrix, have gained popularity in recent years as scientists recognize that often the most robust materials are those that mimic nature.
Pompili, M., Hermans, S. L. N., Baier, S., Beukers, H. K. C., Humphreys, P. C., Schouten, R. N., Vermeulen, R. F. L., Tiggelman, M. J., dos Santos Martins, L., Dirkse, B., Wehner, S., Hanson, R.
April 16, 2021
Science
Future quantum networks will provide the means to develop truly secure communication channels and will have applications in many other quantum-based technologies. Pompili et al. present a three-node remote quantum network based on solid-state spin qubits (nitrogen-vacancy centers in diamond) coupled by photons. The implementation of two quantum protocols on the network. entanglement distribution and entanglement swapping, illustrates a key platform for exploring, testing, and developing multinode quantum networks and quantum protocols. Science , this issue p. [259][1] The distribution of entangled states across the nodes of a future quantum internet will unlock fundamentally new technologies. Here, we report on the realization of a three-node entanglement-based quantum network. We combine remote quantum nodes based on diamond communication qubits into a scalable phase-stabilized architecture, supplemented with a robust memory qubit and local quantum logic. In addition, we achieve real-time communication and feed-forward gate operations across the network. We demonstrate two quantum network protocols without postselection: the distribution of genuine multipartite entangled states across the three nodes and entanglement swapping through an intermediary node. Our work establishes a key platform for exploring, testing, and developing multinode quantum network protocols and a quantum network control stack. [1]: /lookup/doi/10.1126/science.abg1919
Tom Simonite
March 8, 2021
Wired
The 2018 report in Nature claimed to have found evidence of an elusive subatomic particle. A review found that the group had omitted key data.
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