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Value AFM Probes

Bruker’s Value AFM Probes are manufactured in our AFM probes fabrication facility in Camarillo CA. These low-cost probes provide the best combination of competitive pricing whilst ensuring Bruker-level quality and unrivalled AFM expertise and support. The specifications of the Value Probes are designed for a wide range of applications where the highest level of performance is not the ultimate requirement and price is an important factor in the customer buying decision.
CONTV
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
CONTV-A
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
CONTV-AW
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
CONTV-PT
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
25(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
F: Conductive PtIr
B: Reflective PtIr
CONTV-W
Frequency
Nom: 13KHz
Spring Const.
Nom: 0.2N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
FMV
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
FMV-A
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
FMV-AW
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
FMV-PT
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
25(nm)
Material
0.01 - 0.025 Ocm Antimony (n) doped Si
Coating
F: Conductive PtIr
B: Reflective PtIr
FMV-W
Frequency
Nom: 75KHz
Spring Const.
Nom: 2.8N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
MLNV
Frequency
Nom: 22KHz
Spring Const.
Nom: 0.07N/m
Geometry
A Triangular
Tip Radius
20(nm)
Material
Silicon Nitride
Coating
B: Reflective Gold
NCHV
Frequency
Nom: 320KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
NCHV-A
Frequency
Nom: 320KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
NCHV-AW
Frequency
Nom: 320KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
NCHV-W
Frequency
Nom: 320KHz
Spring Const.
Nom: 40N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
NCLV
Frequency
Nom: 190KHz
Spring Const.
Nom: 48N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
NCLV-A
Frequency
Nom: 190KHz
Spring Const.
Nom: 48N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
Coating
B: Reflective Aluminum
NCLV-AW
Frequency
Nom: 190KHz
Spring Const.
Nom: 48N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
NCLV-W
Frequency
Nom: 190KHz
Spring Const.
Nom: 48N/m
Geometry
Rectangular
Tip Radius
8(nm)
Material
0.01 - 0.025 Ωcm Antimony (n) doped Si
NPV-10
Frequency
Nom: 65KHz
Spring Const.
Nom: 0.35N/m
Geometry
A Triangle
Tip Radius
20(nm)
Material
Silicon Nitride
Coating
B: Reflective Gold
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