Our research is driven by curiosity …
… and inspired by a Just Cause

A Just Cause is a specific vision of a future
state that does not yet exist … describes
the world we hope to live in and will commit
to help build … it is about something bigger
than ourselves, something with value that
would last well beyond our own lifetimes …

[Simon Sinek: The Infinite Game]

ATTOWORLD is the home for advancing electromagnetic signal metrology towards its ultimate frontier: resolving the oscillating fields of single photons. By exploring and exploiting electron-light interactions as they occur in real time, we pursue shaping the future of healthcare.

A mobile version for attoworld.de is under construction.

  • Team1
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.
  • Team2
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.
  • Team3
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.
  • Team4
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.
  • Team5
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.
  • Team6
    Ioachim pupeza — Novel tools and techniques for electric-field-resolved investigations of ultrafast light-matter interactions: the optical electric fields associated with light-matter interactions carry in-depth information on the underlying physical mechanisms.
    Website
    Generating reproducible optical waveforms and measuring them with (sub-)attosecond temporal accuracy and single-photon sensitivity will enable optical spectroscopy at its fundamental limits.