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How to Measure Allan Variance with Zurich Instruments Lock-in Amplifiers

28.08.2023

Allan Variation measurement with Zurich Instruments lock-in amplifiers.

Any measurement resolution is limited by random fluctuations, "noise", of the measured quantities. Practical systems also might experience variations of parameters causing "drifts" in the measurements. Various sources of such noises and drifts may take different time or frequency dependencies. To understand how such fluctuations affect one's measurement, a careful analysis of such noise and drifts must be performed. Discrimination of such noise sources might be performed by performing Allan deviation measurement of discretely sample data. In this blog post, we discuss how to easily measure Allan variance with our Zurich Instruments lock-in amplifier.

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Subsampling Techniques for Achieving Waveform Precision in Picoseconds

11.11.2022

Oscilloscope image HDAWG subsampling

An arbitrary waveform generator (AWG) can generate pulses with a timing resolution much finer than its sampling period. Users are often unaware of this capability, yet it enables highly precise timing control in application use cases such as NV center dynamical decoupling, flux pulse width control, AWG channel deskew, and IQ mixer calibration...

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Five Tips to Boost Your Qubit Measurements

07.06.2022

Speedup of QCCS

When operating qubits, speed and high system utilization are key to achieving rapid progress. In this blog post, you’ll find a collection of five important tips to optimize the throughput of your Zurich Instruments Quantum Computing Control System (QCCS) and perform measurements faster than ever!

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A Pythonic Approach to LabOne

18.05.2022

A Pythonic Approach to LabOne

In this blog post, we intend to shed light on zhinst-toolkit, our all-new high-level Python API. It aims to provide a pythonic approach to interface the test and measurement instruments from Zurich Instruments.

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Un'architettura LabVIEW per costruire sistemi DLTS con lo MFIA

23.09.2021

MFIA configuration

Questo blog post descrive un codice basato su LabVIEW™ per utilizzare l'analizzatore di impedenza MFIA per effetturare misure di spettroscopia transitoria di livello profondo (DLTS), compreso un template per aggiungere il controllo di un termoregolatore di terze parti. La DLTS è una tecnica potente e comunemente usata per studiare la...

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Efficient Generation of Dynamic Pulses

08.09.2021

Rabi Cyclic

Solid-state qubits are typically characterized and operated by a series of very short pulses. To achieve a high-fidelity control, it is necessary to generate many sequences of them, with very accurate timing. In this blog post, I will show how to use the advanced feature set of the HDAWG Arbitrary...

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A LabVIEW Template for Building DLTS Systems with the MFIA

27.07.2021

MFIA configuration

This blog post describes how to get started with writing a LabVIEW™ code to control the MFIA Impedance Analyzer for DLTS measurements . It also includes ideas for independent code for the control of a third-party temperature controller. Deep level transient spectroscopy (DLTS) is a powerful and commonly used technique...

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Randomized Benchmarking in Seconds

20.05.2021

Random Benchmarking Sequence

Randomized benchmarking (RB) is a widely used tool in quantum information science to determine qubit fidelity and to characterize individual qubit gates. It is also an excellent example of a quantum experiment with advanced requirements on the control hardware and software. For an RB experiment, we apply random sequences of...

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Customized Output Data Format for Impedance Sweeps

16.04.2021

Data Format

This short blog post shows you how to customize the exported data of your impedance sweeps on the MFIA and MFLI with MF-IA option. The Sweeper module of LabOne® is an excellent tool to sweep frequency, amplitude or bias offset, and measure multiple parameters as a function of the swept parameter.

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Capturing Transients with the Zurich Instruments Toolkit

07.04.2021

MFIA configuration

In many applications, Zurich Instruments' lock-in amplifiers and impedance analyzers are integrated into a larger measurement system. Relying on an application programming interface (API) to obtain necessary information from the instruments is of great importance in such cases...

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Automating IQ Mixer Calibration on the HDIQ

03.02.2021

LO Leakage

As a crucial step in the bring-up of superconducting experiments, IQ mixer calibration normally requires multiple instruments from different parties and manual cabling work. This blog post describes how to use the Zurich Instruments HDIQ, HDAWG and UHFQA (or other UHF instruments) to automate IQ mixer calibration and: Simplify the...

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Multiplexed Impedance Measurements

17.06.2020

Multiplexed Impedance Measurement

Introduction Having more impedance measurement channels is often desirable in many applications. For instance, in electrical impedance tomography (EIT), it is common to have many channels to achieve enough spatial resolution (144 electrodes on the thorax) [1]. Naturally, this can be done with multiple instruments working together. When synchronization is...

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Controlling Your Measurements With QCoDeS and Labber

24.05.2020

QCodes

With this blog post, we introduce a new high-level Python programming interface for our instruments: the Zurich Instruments Toolkit. It is the basis of our new support for QCoDeS and Labber measurement frameworks. A modern experiment can be a complex beast. Researchers put a great amount of time and care...

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