Discutez avec un expert

Advanced Research

At the extremes of science, research often goes beyond “scientific discovery” to become the discovery of new sciences.

In laboratories around the world, Agilent instrumentation has become an integral part of advanced experimental systems, whether for system control or experiment observation.

Advanced Research

Applications include:

  • Astrophysics
  • Nuclear physics
  • Particle physics
  • Plasma physics

and other high-energy physics advanced research applications.

Agilent high-speed instruments are used in two major areas:

  • Real-time control and measurement
  • Single-shot, or event-based measurements

Expanding knowledge on phenomena at galactic or nanometer scale, confidence in results is strengthened by dependable measurement solutions that provide exceptional speed and measurement fidelity. Agilent provides the extreme speed and precision needed for system monitoring and control, and for capturing data from the events at speeds that exceed the interactions of the experiments themselves.

Related Links

Refine the List

retirer tout le raffinement

By Type of Content

Par catégorie de produit

1-3 of 3

Sort:
A New Measurement of the Half-Life of the Superallowed -decay of 26mAl  
This short article reprint was prepared by Rebecca Scott from the University of Melbourne. It discusses the use of Agilent Acqiris digitizers for digital signal processing in nuclear physics.

Article 2008-05-20

PDF PDF 143 KB
Broadband FFT Spectrometer for Radio and Millimeter Astronomy Article Reprint 
The core architecture, tests in the lab and first results of a Fast Fourier Transform spectrometer are described in this document

Article 2008-04-02

PDF PDF 418 KB
Measurement of the Real Time Fill-Pattern at the Australian Synchrotron  
This article describes the development, commissioning and operation of a Fill-Pattern Monitor (FPM) for the Australian Synchrotron that measures the real-time intensity distribution of the electron bunches in the storage ring.

Article 2008-03-05

PDF PDF 685 KB