Optical Access and Spectroscopy

Optical Access and Spectroscopy
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  1. Force constant typical, N/m - 0.3

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 16

    Tip curvature radius, nm - Typically 35nm

    As low as £1,933.00
  2. Force constant typical, N/m - 50

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 300

    Tip curvature radius, nm - Typically 35nm

    As low as £1,933.00
  3. Force constant typical, N/m - 0.3

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 16

    Tip curvature radius, nm - Typical 6nm, guaranteed 10nm

    As low as £481.00
  4. Force constant typical, N/m - 0.6

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 16

    Tip Coating - Pt

    Tip curvature radius, nm - 25 - 35 nm

    As low as £576.00
  5. Force constant typical, N/m - 50

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 300

    Tip curvature radius, nm - Typical 6nm, guaranteed 10nm

    As low as £481.00
  6. Force constant typical, N/m - 50

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 300

    Tip Coating - None

    Tip curvature radius, nm - Typical 6nm, guaranteed 10nm

    As low as £433.00
  7. Force constant typical, N/m - 50

    Material - Single Crystal Silicon, N-type, 0.01-0.025 Ohm-cm, Antimony doped

    Resonant frequency typical, KHz - 300

    Tip Coating - Pt

    Tip curvature radius, nm - 25 - 35 nm

    As low as £495.00
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