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MagneticMulti75-G

Order Code / Price*

Quantity

Multi75M-G-10 Box of 10 AFM Probes

240 240.00 EUR

Volume Discount Available [?]

Multi75M-G-50 Box of 50 AFM Probes

1050 1050.00 EUR

Your volume discount is 150.00 EUR or 12.50%

Product availability: On stock

MagneticMulti75-G Box of: max. 50 AFM Probes

Buy these AFM Probes together with other BudgetSensors AFM probes of your choice in a Budget Combo Box!

Side view SEM image of uncoated AFM tip r

Front view SEM image of uncoated AFM tip

MagneticMulti75-G

Name: Multi75M-G-10 Hard Magnetic, Medium Momentum AFM Probe
Brand: BudgetSensors
SKU: Multi75M-G-10
Price: 240 EUR
Availability: InStock

best bang for your buck

Hard Magnetic, Medium Momentum AFM Probe

Manufacturer: BudgetSensors

Coating: Magnetic
AFM tip shape: Rotated

AFM Cantilever

F 75 kHz

C 3 N/m

L 225 µm

*nominal values

Applications

Magnetic AFM Probes

How to optimize AFM scan parameters

Micromachined monolithic silicon AFM probe for magnetic force microscopy (MFM) operation.

The cobalt-alloy coated AFM tip has a magnetic moment of roughly 10^-13 emu and coercivity of roughly 300 Oe.

The consistent AFM tip radius of less than 60 nm ensures high resolution and good reproducibility. The rotated AFM tip provides more symmetric representation of high sample features.

The AFM probe features a reflective aluminum coating on the back side of the AFM cantilever.

With its industry standard dimensions of 3.4 x 1.6 x 0.3 mm the holder chip fits most commercial AFM systems.

Consistent high quality at a lower price!

This AFM probe features alignment grooves on the back side of the holder chip.

Hard magnetic, medium momentum coating on tip side of the cantilever and aluminium reflex coating on detector side of the cantilever

AFM Tip:

Shape: Rotated

Height: 17 µm (15 - 19 µm)*

Setback: 15 µm (10 - 20 µm)*

Radius: < 60 nm

Half Cone Angle: 20°-25° along cantilever axis, 25°-30° from side, 10° at the apex

AFM Cantilever:

Shape: Beam

Force Constant: 3 N/m (1 - 7 N/m)*

Resonance Frequency: 75 kHz (60 - 90 kHz)*

Length: 225 µm (215 - 235 µm)*

Width: 28 µm (23 - 33 µm)*

Thickness: 3 µm ( 2 - 4 µm)*

* typical range

Magnetic domains on a zip disk

Magnetic field MFM image of a zip disk

Scanned with a BudgetSensors MagneticMulti75-G AFM probe on an Asylum MFP-3D AFM system, 75 micron scan size

Image courtesy of Scott MacLaren, University of Illinois at Urbana-Champaign, USA

Magnetic ZIP disk

Surafece topography (left) and magnetic field (right) images of the surface of a magnetic ZIP disk

Scanned with a BudgetSensors MagneticMulti75-G AFM probe, 60 micron scan size

Image courtesy of Scott MacLaren, University of Illinois at Urbana-Champaign, USA

Hard disk drive (HDD) platter surface

Topographic image (left) and Magnetic Force Microscopy (MFM) phase image (right) of a HDD platter surface. The high and low areas on the magnetic scan are regions with different orientation of the magnetic dipoles that store binary 1s and 0s.

Scanned with a BudgetSensors MagneticMulti75-G AFM probe in Magnetic Force Microscopy mode, 5 micron scan size

Image courtesy of Dr. Yordan Stefanov, Innovative Solutions Bulgaria

Hard disk

Magnetic field image of high capacity (500 GB) hard disk

Scanned with a BudgetSensors MagneticMulti75-G AFM probe, 10 micron scan

Image courtesy of Scott MacLaren, University of Illinois at Urbana-Champaign, USA

MFM on harddrive platter

Tapping mode topography (left) and magnetic force microscopy overlaid on topography (right) images of the surface of a harddrive platter. MFM reveals the hidden bits of information stored by magnetizing small regions of a ferromagnetic film.

Scanned with a BudgetSensors MagneticMulti75-G AFM probe, 10 micron scan size

Image courtesy of Dr. Yordan Stefanov, Innovative Solutions Bulgaria