s-SNOM-working-principleReady-to-use Near-Field Illumination Units with Guaranteed Performance for Cutting-Edge Nanoanalytic Applications

Depending on the spectral range of the Near-Field Illumination Unit, the neaSNOM microscope can be used to analyze chemical, structural and electronic properties of organic and inorganic materials with up to 1000-times better spatial resolution when compared with conventional technology such as FT-IR.

neaspec’s Near-Field Illumination Units include on-site installation, on-site verification of performance, as well as a on-site comprehensive user training and professional support.

Visible & Near-IR Illumination Units for Imaging

Potential application: Electric-field mapping of plasmonic structures

  • Visible: 532 nm, 633 nm, 785nm, 808 nm, 1550 nm
  • Near-IR: 1064nm, 1550 nm, 1450-1610 nm tunable

For a complete list of available visible & NIR wavelenghts-ranges please contact us.

Mid-IR Illumination Units for Imaging

Potential applications:

  • Material selective imaging of organic & inorganic samples
  • Graphene Plasmonics (Sensitivity up to single monolayer)

Available wavelengths:

  • Step-tunable: 9,2 µm – 10,8 µm
  • Step-tunable: 10.66 µm – 11,33 µm
  • Tunable (100 1/cm) @ central wavelenght: 3.8, 4.0, 4.2, 4.4, 4.55, 4.65, 4.9, 5.3, 6.1, 7.4, 7.8, 8.4, 9.0, 9.5 or 10.5 μm

Visible, Near-IR & Mid-IR Illumination Untis for Spectroscopy

Potential applications: Nanoscale molecular spectroscopy of organic & inorganic materials

  • Visible: 600 – 1100 nm
  • Near-IR: 1000 – 2300 nm
  • Mid-IR: 5 – 15 µm

3rd Party Light-Source Integration with NeaSNOM microscope

neaspec offers a professional light-source integration-service for e.g. Synchrotron IR-beamlines, free electron lasers, or visible & infrared lasers with the neaSNOM microscope.

Please contact us for a quote and have your light-source details at hand so we can ensure the technical requirements are met and the integration is possible.