Research Level Atomic Force Microscope- Research Level, Combined controller & main body design, with
Contact Mode, Tapping Mode, 10x Objective.
- Precision laser and probe positioning device, it is simple and
convenient to replace the probe and adjust the spot
- High-precision and large-scale piezoelectric ceramic scanners can
be selected according to different accuracy and scanning range
requirements
- Optical positioning of 10X APO objective lens, no need to focus,
real-time observation and positioning of the probe sample scanning
area;
- The spring suspension shockproof method is simple and practical,
and has strong anti-interference ability.
◆ The laser detection head and
the sample scanning stage are integrated, the structure is very
stable, and the anti-interference is strong ◆ Precision probe positioning
device, laser spot alignment adjustment is very easy ◆ The single-axis drive sample
automatically approaches the probe vertically, so that the needle
tip is perpendicular to the sample scan ◆ The intelligent needle feeding
method of motor-controlled pressurized piezoelectric ceramic
automatic detection protects the probe and the sample ◆ High-precision and
wide-ranging piezoelectric ceramic scanners can be freely selected ◆ High-magnification objective
lens automatic optical positioning, no need to focus, real-time
observation and positioning of the probe sample scanning area ◆ Spring suspension shockproof
method, simple and practical, good shockproof effect ◆ Metal shielded soundproof box,
built-in high-precision temperature and humidity sensor, real-time
monitoring of the working environment ◆ Integrated scanner nonlinear
correction user editor, nanometer characterization and measurement
accuracy better than 98% -
| Specification | A62.4500 | A622.4501 | A62.4503 | A62.4505 | | Work Mode | Tapping Mode
【Optional】
Contact Mode
Friction Mode
Phase Mode
Magnetic Mode
Electrostatic Mode | Contact Mode
Tapping Mode
【Optional】
Friction Mode
Phase Mode
Magnetic Mode
Electrostatic Mode | Contact Mode
Tapping Mode
【Optional】
Friction Mode
Phase Mode
Magnetic Mode
Electrostatic Mode | Contact Mode
Tapping Mode
【Optional】
Friction Mode
Phase Mode
Magnetic Mode
Electrostatic Mode | | Current Spectrum Curve | RMS-Z Curve
【Optional】
F-Z Force Curve | RMS-Z Curve
F-Z Force Curve | RMS-Z Curve
F-Z Force Curve | RMS-Z Curve
F-Z Force Curve | | XY Scan Range | 20×20um | 20×20um | 50×50um | 50×50um | | XY Scan Resolution | 0.2nm | 0.2nm | 0.2nm | 0.2nm | | Z Scan Range | 2.5um | 2.5um | 5um | 5um | | Y Scan Resolution | 0.05nm | 0.05nm | 0.05nm | 0.05nm | | Scan Speed | 0.6Hz~30Hz | 0.6Hz~30Hz | 0.6Hz~30Hz | 0.6Hz~30Hz | | Scan Angle | 0~360° | 0~360° | 0~360° | 0~360° | | Sample Size | Φ≤90mm
H≤20mm | Φ≤90mm
H≤20mm | Φ≤90mm
H≤20mm | Φ≤90mm
H≤20mm | | XY Stage Moving | 15×15mm | 15×15mm | 25×25um | 25×25um | | Shock-Absorbing Design | Spring Suspension | Spring Suspension
Metal Shielding Box | Spring Suspension
Metal Shielding Box | - | | Optical Syestem | 4x Objective
Resolution 2.5um | 4x Objective
Resolution 2.5um | 10x Objective
Resolution 1um | Eyepiece 10x
Infinity Plan LWD APO 5x10x20x50x
5.0M Digital Camera
10" LCD Monitor, With Measuring
LED Kohler Illumination
Coaxial Coarse & Fine Focusing | | Output | USB2.0/3.0 | USB2.0/3.0 | USB2.0/3.0 | USB2.0/3.0 | | Software | Win XP/7/8/10 | Win XP/7/8/10 | Win XP/7/8/10 | Win XP/7/8/10 |
| Microscope | Optical Microscope | Electron Microscope | Scanning Probe Microscope | | Max Resolution (um) | 0.18 | 0.00011 | 0.00008 | | Remark | Oil immersion 1500x | Imaging diamond carbon atoms | Imaging high-order graphitic carbon atoms | | | |
| Probe-Sample Interaction | Measure Signal | Information | | Force | Electrostatic Force | Shape | | Tunnel Current | Current | Shape, Conductivity | | Magnetic Force | Phase | Magnetic Structure | | Electrostatic Force | Phase | charge distribution |
| | Resolution | Working Condition | Working Temperation | Damge to Sample | Inspection Depth | | SPM | Atom Level 0.1nm | Normal, Liquid, Vacuum | Room or Low Temperation | None | 1~2 Atom Level | | TEM | Point 0.3~0.5nm
Lattice 0.1~0.2nm | High Vaccum | Room Temperation | Small | Usually <100nm | | SEM | 6-10nm | High Vaccum | Room Temperation | Small | 10mm @10x
1um @10000x | | FIM | Atom Level 0.1nm | Super High Vaccum | 30~80K | Damge | Atom Thickness |
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