SwissQuantumPi: Introducing QCSimulator
The code for the QCSimulator package is also available at Github QCSimulator. QCSimulator is also on CRAN. Thanks to Tinniam. The first you have to do is to install the QCSimulator R Package. As it’s on
SwissQuantumPi: Installation of R
First, we have to get the version of R available in the Raspbian repo. Wait a little bit, the package size is more than 60 MB. With a clean new Raspian installation, you should have
SwissQuantumPi: Configuring SSH
To remotely access to your Raspberry Pi, you need to enable SSH first. Follow the steps below to learn how to enable SSH on your Raspberry Pi without a screen. We will also show you how
SwissQuantumPi: A Quantum Simulator on Raspberry Pi
In 2016, a brilliant Indian software engineer, Tinniam V Ganesh, released QCSimulator, its 5-qubit quantum simulator based on R. Raspberry Pi 4 last release provides an amazing Quad Core Cortex-A72 (ARM v8) 64-bit @ 1.5GHz with
A quantum metasurface that can simultaneously control multiple properties of light
A research team led by Mikhail Lukin at Harvard University has recently proposed a new type of metasurface that can control both the spatiotemporal and quantum properties of transmitted and reflected light. The team showed that realizing a
Light from stretchable sheets of atoms for quantum technologies
A team of Australian scientists from the University of Technology Sydney (UTS) and the Australian National University (ANU) believe they have developed a way to address a decades-long challenge in the field of quantum materials—the
Speeding-up quantum computing using giant atomic ions
Different physical systems can be used to make a quantum computer. Trapped ions that form a crystal have led the research field for years, but when the system is scaled up to large ion crystals this method
Hot qubits for practical quantum computers
Researchers at UNSW Sydney have addressed the problem of merging qubits and classical electronic circuits that requires multi-million-dollar refrigeration. The researchers’ proof-of-concept quantum processor unit cell, on a silicon chip, works at 1.5 Kelvin –
Scalable silicon qubits operate under practical conditions
QuTech, a collaboration between TU Delft and TNO, has managed to control qubits in silicon at temperatures over 50 times higher than previously. The increase to practical temperatures represents a crucial leap towards a functional