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AFM Probe Selection Guide
How to choose an AFM probe
AFM Probe Selection Guide Book
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FMM / F-d / PinPoint

For optimal performance with our AFM systems please request a quote from Park Systems. Mounted cantilevers are additionally tested. All probes that are not listed here from Adama Innovations, Applied Nano Structures, Inc, BudgetSensors, MikroMasch, Nanosensors™, Nanotools GmbH, Nanoworld AG, NuNano, Olympus Corp., are possible to order from our probe store. Probes from other manufacturers also can be possible to order upon request for quotation. The performance of probes ordered from other sources are not guaranteed.

Probe Force Constant (N/m) Frequency (kHz ) Manufacture Short Description Quote
SD-R30-NCH 42 330 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on stiff samples

▪ Typical tip length:125 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
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SD-R30-FM 2.8 75 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on soft samples

▪ Typical tip length:125 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
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SD-R30-CONT 0.2 13 Nanosensors ▪ Probe for nanomechanical modes
(F-d/PinPoint) on soft samples

▪ Typical tip length:450 µm
▪ Typical tip radius: 30nm ±10nm
▪ Tip shape: Parabolic tip shape
▪ Tip size and shape make it suitable for nanomechanical quantitative measurements
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NC-LC 100 450 ▪ Cantilever with high spring constant for nanomechnical measurement and Conductive AFM
▪ Backside reflex coating (Cr-Au)
▪ Tip shape: cone
▪ Single crystal diamond tip
▪ Typical tip length: ~175 nm
▪ Typical tip radius: ~20 nm
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FM-LC 8 100   Request for Quote
PPP-FMR 2 75 Nanosensors ▪ Backside reflex coating (Al)
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius:
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 28 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 2 0.5 - 9.5
Resonance Frequency /kHz 75 45 - 115
DT-FMR 6.2 105 Nanosensors ▪ Backside reflex coating
▪ Diamond coated tip
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius: 100 - 200 nm
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Property Nominal Value Specified Range
Thickness /µm 3 2.0 - 4.0
Mean Width /µm 27.5 20 - 35
Length /µm 225 215 - 235
Force Constant /(N/m) 6.2 1.5 - 18.3
Resonance Frequency /kHz 105 65 - 155
PPP-NCSTR 7.4 160 Nanosensors ▪ Backside reflex coating (Al)
▪ Typical tip length: 10 - 15 μm
▪ Typical tip radius:
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Property Nominal Value Specified Range
Thickness /µm 2.8 1.8 - 3.8
Mean Width /µm 27 19.5 - 34.5
Length /µm 150 140 - 160
Force Constant /(N/m) 7.4 1.2 - 29
Resonance Frequency /kHz 160 75 - 265
NSC36/Al BS 1
2
0.6
90
130
65
Mikromasch ▪ Contact cantilever
▪ Backside reflective coating (Al)
▪ Typical tip length: 12 - 18 μm
▪ Typical tip radius: ▪ 3 cantilevers on a chip
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.
NSC36,
Cantilevers
Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
A 30 90 160 0.1 1 4.6 110 32.5 1.0
B 45 130 240 0.2 2 9 90 32.5 1.0
C 25 65 115 0.06 0.6 2.7 130 32.5 1.0
NSC14/HARD/AI BS 5 160 Mikromasch ▪ Backside reflective coating (Al)
▪ Hard Diamond-Like-Carbon coated tip
▪ Typical tip length: 12 - 18 μm
▪ Typical tip radius:
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Cantilever Resonance Frequency, kHz Force Constant, N/m Length
l ± 5,
µm
Width
w ± 3,
µm
Thickness
t ± 0.5,
µm
min typ max min typ max
14 Series 110 160 220 1.8 5 13 125 25 2.1

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