Boosting photon count rates and streamlining quantum state readout! Learn how Swabian Instruments Time Tagger technology is enhancing quantum computing and networking research in the team led by Prof. Mikhail L
Time Tagger X的改进: 高分辨率模式:我们为 Time Tagger X 引入了高分辨率模式 (HighRes Mode),用户可以根据需要选购以实现至多5个低至 1.5 ps 均方根抖动 (RMS Jitter)的输入通道,提供无与伦比的精度。 完全支持 qSFP+ FPGA 传输:通过 qSFP+模块向 FPGA 的数据传输可以实现最高 1.2G Tags/s 的数据传输率...
Tagger’s software engine to cast your Time Tag Streams into a network. On client computers you can fire up virtual Time Taggers and work with them as if they were physically attached to your computer, providing the full measurement and data processing capabilities of a hardware Time Tagger. ...
Time Tagger 20使我们可以更快、并行地采集实验数据信号。其独特的流式结构让我们免于编写大量的编码就能更快地实施新的研究思路。 “突出的技术指标、极大的使用灵活性和出色的性价比让人印象深刻” Prof. Jason Smith Time Tagger突出的技术指标、极大的使用灵活性和出色的性价比让人印象深刻。Swabian Instruments值得...
2021 年, Swabian Instruments将Stuttgarter Innovationspreis收入囊中。这一享有盛誉的奖项旨在表彰来自斯图加特的杰出企业,这些公司以其创新理念塑造着未来。 该奖项由包括斯图加特市长 Frank Nopper 博士和著名的创新专家以及该地区成功的企业家共同组成的评审团评选产生。
Introduction to Time Tagger Software and API Welcome Party Wednesday, September 24th Seminars and Talks Lunch Hands-on Experimental Sessions Thursday, September 25th Seminars and Talks Research Project Presentations Lunch Hands-on Experimental Sessions Friday, September 26th, until 2 p.m. Research Project...
Results demonstrated by Swabian Instruments’ Time Tagger in frequency stability analysisFigure 2. (a) Modified Allan Deviation (MDEV) of three 10 MHz oscillator signals, evaluated using the FrequencyStability measurement class of the Time Tagger software. The dashed line represents the stability floor...
Swabian Instruments' Time Tagger enables you to synchronize up to 8 units, each with 18 channels, to process signals from up to 160 single-photon detectors. The Time Taggers' software engine provides features such as flexible delay tuning on each channel independently so that the sync signal and...
Swabian Instruments 开发生产的Time Tagger是Thorlabs精心打造的量子光学教学套件的核心部件。这款专为学生和教育工作者设计的教学套件,通过功能强大的Time Tagger简化了符合测量过程,让量子光学的探索变得直观易懂。其多功能性使学生能够更轻松地学习非经典光源和单光子实验等复杂概念。
Swabian Instruments与KETEK GmbH一起开发了一种新的方法,仅使用单个输入阈值并依靠信号脉冲持续时间。通过检测上升沿和下降沿,我们会获得一个明显的脉冲宽度,该脉宽直接编码光子数。这种测量能力是由Swabian Instruments的Time Tagger Ultra实现的。其高定时精度可精确表征探测器的定时抖动。