瑞士苏黎世仪器

Splash Screen Quantum Research

 

Boost Your Lab’s Performance in Quantum Research
Our tailored solutions bring you results faster with a powerful, ready-made toolset.

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Splash Screen QHub

 

QHub Quantum System Hub
Progress toward quantum advantage with our new solution to scale up your quantum computing control stack.

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IQM collab video

 

Building a Quantum Computer Together
See how IQM and Zurich Instruments advance towards real-world quantum technology applications.

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Splash Screen PID White Paper

 

Principles of PID Controllers
Interested in controlling your systems more efficiently?
Take a look at our new white paper.

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Splash Screen LabOneQ Tutorial Videos

 

New LabOne Q Tutorial Videos
See how to get started with quantum experiments and realize your research ideas.

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Three Pillars Products
Quantum Computing Systems Icon

量子计算系统

量子计算系统

  • 紧凑且可扩展至超过100量子位
  • 提高工作效率的Labone®软件
  • 低噪音,高分辨率和大带宽
  • 快速灵活的量子反馈
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Lock-in Amplifiers Icon

锁相放大器

锁相放大器

  • 直流至 600 MHz 的仪器
  • 低输入噪声,高动态储备
  • 自带工具箱包括 Boxcar,PID,示波器和FFT
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Impedance Analyzers Icon

阻抗分析仪

阻抗分析仪

  • 1 mHz 至 5 MHz,1 mΩ 至 1 TΩ
  • 快速准确地测量
  • 非常适合 DLTS,MEMS,ESR和ESL测量
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LabOne 软件支持所有仪器

LabOne Overview
LabOne Logo

LabOne® 是仪器控制软件,可在各种简单或复杂的实验中保证高效的工作流程:

  • 基于浏览器的用户界面,支持
    常用编程语言
  • 支持时域和频域数据分析
    先进的信号处理工具
  • 跨多个仪器的多通道实时信号采集

探索 LabOne

用户访谈

Martino Poggio

« Modernizing equipment for education and research is going to be a top priority as it will help us do more research and projects with the innovative equipment of Zurich Instruments. »

Prof. Martino Poggio - Director of the Swiss Nanoscience Institute and Head of the Poggio Lab at the University of Basel.
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用户访谈

Dr. Daniel Jirovec

« The UHFLI is probably the most used instrument in our lab. Almost every setup has one because it's just so versatile and so quick to use. »

Dr. Daniel Jirovec - Postdoctoral researcher at Institute of Science and Technology Austria (ISTA).
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用户访谈

Beckett Colson and Dr. Anna Michel

« A lock-in amplifier offers a convenient way to measure impedance in a continuous flow of water. We can use the impedance change to tell the difference between biological particles - which we hope to see in abundance - and microplastics. »

Beckett Colson and Dr. Anna Michel - Chemical Sensors Lab at the Woods Hole Oceanographic Institution (WHOI).
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用户访谈

Prof. Yonuk Chong

« The Zurich Instruments QCCS made it possible to set up and start the measurement of qubits very quickly. In particular, the generation of precise high-frequency signals using double-superheterodyne frequency conversion significantly reduced the calibration burden in the qubit readout and control measurement setup. »

Prof. Yonuk Chong - Professor at Sungkyunkwan University (SKKU) and Director of the Quantum Information Research Support Center (QCenter).
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用户访谈

Andre Maier and Marcus Scheele

« We implemented a characterization method based on asynchronous optical sampling, where the UHFLI Lock-in Amplifier from Zurich Instruments plays an important role. With this technique, we can unravel the intrinsic temporal response of the developed photodetectors in the range of pico- to nanoseconds. »

Dr. Andre Maier and Prof. Marcus Scheele - Physical Chemistry of Nanocrystals group at the University of Tübingen, Germany.
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用户访谈

Nathan Lacroix and Sebastian Krinner

« We use Zurich Instruments' equipment for low-noise and high-resolution control signal generation and for readout with FPGA-based fast signal processing. If we had to build control electronics on a large scale with similar characteristics, that would distract us from our core research activities. »

Mr. Nathan Lacroix and Dr. Sebastian Krinner - PhD student and senior research assistant in the Quantum Device Lab at ETH Zurich.
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用户访谈

Andreas Pauly

« Along with its lock-in amplifiers and impedance analyzers, Zurich Instruments offers brilliant solutions for controlling and measuring quantum processors and is a strong node in the network of actors leading this field. »

Andreas Pauly - Executive Vice President of the Test and Measurement Division at Rohde & Schwarz
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应用领域

量子技术

光学与光子学

阻抗测量

扫描探针显微镜

纳米技术与材料科学

传感器

该研究领域不断为那些致力于构建有用的量子计算机或安全的现实世界量子网络的人们带来新的挑战。无论您是使用超导量子比特还是自旋量子比特,我们提供的硬件和软件可以用来调控您的系统,并可按照需求进行扩展。

光学和光子学中的测量技术提供了有效的方法来研究不同尺寸和时间范围内的物理系统。我们的锁相放大器,锁相环,Boxcar 平均器及其丰富的工具集旨在简化实验系统,节省时间并高质量地采集数据。

表征新材料或新设备的阻抗需要一种能够在宽的频率范围内精确,快速地测量阻抗的仪器。我们提供的测量功能涵盖四个主要领域:传感器表征,电介质,半导体表征和生物阻抗。

我们着重于解决扫描探针显微镜中的仪器开发挑战,帮助您进行时域和频域数据分析,以捕获和控制复杂的针尖样品相互作用,并提供一系列适合您需求的模式和集成工具。

我们的锁相放大器和现场可升级选件使您能够研究尺寸小的材料的特性,这要归功于快速,低噪声的数据采集和功能,其中包括同时进行静态和动态测量。

为了表征和控制对变化的环境做出响应的传感器,我们提供了一个工具集,用于在单个仪器中进行时域和频域测量并搭建反馈控制环

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与我们相会

Quantum Effects Exhibition and Conference for Quantum Technologies

Stuttgart, Germany
October 10 - 11
Learn more

MicroTAS 2023

Katowice, Poland
October 15 - 19
Learn more

Quantum Industry Day in Switzerland (QIDiS)

Lausanne, Switzerland
October 16
Learn more

The Korean Physical Society (KPS) Fall Meeting

Changwon, South Korea
October 24 - 27
Learn more
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