This repository contains my implementation of the (non-fault tolerant) Five-qubit error correcting code using Qiskit package for Python. This python program is useful ...

3D illustration of a working quantum computer with fictitious and realistic design elements combined. Japanese researchers have developed the world’s first superconducting flux qubit that ...

Figure 1 Schematic diagrams of two superconducting flux qubit circuits. The conventional qubit (a) requires an external magnetic field to operate optimally, while the new flux qubit (b), using a ...

The Qubit™ 3.0 Fluorometer is the next generation of the popular benchtop fluorometer that accurately measures DNA, RNA, and protein using the highly sensitive Qubit quantitation assays.

The index library was constructed according to the manufacturer’s instructions. The sequencing library was quantified using a Qubit ssDNA Assay Kit (ThermoFisher Scientific, Waltham, MA, USA) and ...

The Qubit fluorometer, a device designed to measure fluorescence signals from samples, operates by correlating these signals with known concentrations of probes. This process enables it to transform ...

Researchers at Diraq, a Sydney-based quantum hardware technology company, and UNSW recently set out to investigate the errors emerging in a spin qubit processor composed of high-fidelity two-qubit ...

A team of engineers and physicists at quantum computing company Quantinuum has conducted the first-ever teleportation of a logical qubit using fault-tolerant methods. In their paper published in ...

dsDNA Quantification BR and HS Kit (for microplate reader) dsDNA Quantification BR and HS Kit (for microplate reader) dsDNA Quantification Kits: HS and BR (for Qubit Fluorometer) ...