FULL SPATIO-TEMPORAL CHARACTERIZATION OF YOUR
ULTRAFAST LASER AMPLIFIER
Discover Sphere ICE, the innovative solution for complete spatiotemporal characterization of femtosecond laser pulses.
Engineered for speed and precision, Sphere ICE provides high-resolution measurements that offer an intuitive and direct visualization of laser pulses across the spatial, frequency, and temporal dimensions.
It expertly reveals spatiotemporal couplings, distortions, and intricate structures born from complex or customized phases.
Measurement examples

the absolute field. The plot shows an isosurface set at half the peak intensity. The inset shows the same surface from a viewpoint along the
propagation direction, evidencing the phase singularity (dimensions of inset plot are 4 mm x 4 mm). (b) Isosurface set at 0 of the real part
of the complex field. For clarity, only regions where the intensity is higher than 0.4 times the peak intensity are shown. (c) Isosurfaces of
the real part of the field, set at 0.7 (red) and -0.7 (blue) of the peak field.
https://doi.org/10.1364/OL.39.005142 – https://doi.org/10.1080/09500340.2016.1257751
Key features
• Frequency-resolved intensity profile and wavefront
• Spatially resolved spectrum
• Spatio-temporal couplings
ICE | |
Wavelength range | 500 – 1000 nm |
Pulse duration (FTL) | 3 fs to 30 fs |
Repetition rate | >10 Hz |
Input Polarisation | Linear |
Input aperture diameter | 12 mm |
Input power | 1 mW |
Dimensions (WxLxH) | 300 mm x 300 mm x 100 mm |
