擁有大掃描範圍、高解析度,更重要的是------擁有全球最強大的電性量測功能
CSI AFM 即將帶給您前所未有的量測體驗!
全方位的AFM擴充功能,滿足您的各種量測需求。
Nano-Observer AFM "Best cost effective solution"
The Nano-Observer AFM microscope is a flexible and powerful AFM. Designed with the ultimate technologies, it combines performance and ease of use. The USB controller offers a real integrated lock-in for better measurement capability (phase detection, Piezo-Response Mode…).
A low-noise laser and a pre-alignment system provide simplicity and high resolution on a compact AFM head. Its intuitive software simplifies all Atomic Force Microscope settings to allow quick and safe AFM acquisitions.
Compact and robust, the Nano-Observer Atomic Force Microscope fulfills the requirements for advanced users or beginners. It avoids laser alignment with the pre-positioned tip system. A top and side view of the tip/sample, combined with vertical motorized control, makes the pre-approach easy.
Why was the Nano-Observer AFM developed?
After working for over twenty years with "the Big Players" and developing new technologies and add-ons for their systems, we were asked by some of our customers to develop our own system for several reasons.
First, we needed to develop an affordable AFM covering most of the main AFM application areas with multiple imaging modes.
Secondly, we wanted to develop a system where we could have full control over future developments. This can be difficult when developing add-ons for current systems already available from other equipment manufacturers. This way enables CSI to become a leader through new developments or novel modes.
Finally, we wanted to develop a user-friendly technique which required limited training and was intuitive for the user to operate.
How have you achieved Low noise feedback?
We did not wanted to make a "cheap" AFM. We wanted it to be affordable but with the best price performance possible.
Ultimately, we did not want to compromise on component quality. We used:
Then we used our past experience to make a smart and balanced choice between analog and digital processing to enhance each signal and perform low noise and fast feedback.
How user friendly is the system and what features have been incorporated to achieve this?
We have years of experience in offering AFM training to the users of other AFMs from various manufacturers. This means we have a clear insight into the strengths and weaknesses of existing systems. A common problem comes from engineer-focused design rather than user-focused design.
We developed the Nano-Observer to include as much visibility as possible using the standard top view, but more importantly we included a high quality side view camera.
Side View of the Nano-Observer
The Intuitive software has pre-defined modes giving the user pre-configured steps for them to follow.
We have also incorporated hardware auto-configuration. Electronic switches are used to set the system for the desired mode. This means we can eliminate the need to add or remove cables or modules.
The user does not need to be an expert. For each mode, the software has pre-defined parameters and auto-configuration.
For example, if I want to make HD-KFM measurement, I simply need to mount a standard conductive probe. The auto-tune will set the appropriate amplitude (higher than for usual tapping-mode) and the right off peak at the appropriate set point and gains. Then, the same is done for the second lock-in dedicated to the KFM control. The controller (electronics) set and drive the lock-ins to the appropriate input/output and the user only needs to stay in front of the computer to make the measurements.
Our intuitive software was first created to be fully controlled using a computer and mouse. We quickly realized how easy it is to use and as soon as touch screen technology appeared, we were ready to implement it into our system. Today you can monitor the Nano-Observer AFM with one finger using a touch-screen, a tablet or even your smartphone! So, you have your AFM at the end of your finger.
How does this differ from the other systems?
By all the points I mentioned before, it is an incomparable package!
The Nano-Observer is the best price/performance AFM on the market. A low noise system (all AFM loop) with an all in one scanner to offer high resolution up to 100µm scan in one unique scanner.
As mentioned before, our goal was not to make an affordable standard AFM, not a "me too". We wanted full control of the system and the freedom to follow our own philosophy of collaboration and development with research labs. This has allowed us to develop some key and unique features:
And of course, the ease of use to set it up, for all AFM modes and environments.
Another particularity of CSI, is that we can customize our equipment for specific requests. We recently worked with the French atomic center (CEA) to develop a custom system, and they are now close to implementing the Nano-Observer AFM in a new field of application after only few months.
What different modes are available to users?
Beside the standard modes (contact, tapping, EFM/MFM/PFM…) and the fact that we simplified their use, we also enlarged the possibilities by adding different environments (atmosphere control (gas, humidity etc.), EZ temperature control (low drift and temperature control up to 200°C) and EZ liquids (no laser re-alignment and stable AC mode in fluids)).
We are striving to be a major player in this field by creating and opening new possibilities for the AFM users. For example:
How do the multiple modes complement each other?
Contact modes and oscillating modes are the main topographic modes. The Magnetic mode (MFM) brings new possibilities for magnetic field studies as Electrostatic mode (EFM). However, EFM has started to be replaced by Kelvin Probe Microscopy (KFM) for more quantitative data.
All those "field" modes are using a "Lift" technique. This consists of lifting the tip above the surface at a constant height to measure the field effect to the AFM tip.
A new technique was recently introduced called "single-pass". CSI developed and optimized this technique to apply it to the KFM measurements, erasing the lift or dual pass technique. In addition, automatic tuning means it is incredible easy for the user set-up.
This is how the HD-KFM option was born, erasing the lift and thereby offering the best sensitivity and resolution for Kelvin probe measurements.
The HD-KFM is giving the surface potential of each point of the sample. It does not require the user to polarize the sample and can be used alongside electrical characterization in ResiScope mode for Microelectronic, Organic Solar cells (semiconductor or OPV) or some materials.
The ResiScope mode is able to cover a large range of electrical measurements (over 10 orders of magnitude) while maintaining a high sensitivity. The ResiScope superiority is a very good complement to basic conductive or SSRM (Spreading Resistance) modes.
Using our experience, we implemented these modes and made them compatible with environmental control (gas, humidity) essential when optimizing electrical measurements for instance.
What applications areas have seen significant benefits from the range of modes the Nano-Observer offers?
There are a range of applications areas where the Nano-Observer is ideally suited. Electrical measurements and Materials:
XY scan range | 100 μm (tolerance +/- 10%) |
Z range | 15 μm (tolerance +/- 10%) |
XY drive resolution | 24 bit control - 0.06 Angströms |
Z drive resolution | 24 bit control - 0.006 Angströms |
Ultra low noise HV | Typ : <0.01 mV RMS |
6 DAC Outputs | 6 D/A Converters – 24 bit (XYZ drive, bias, aux…) |
8 ADC Inputs | 8 A/D Converters – 16 bit |
Data points | Up to 8192 |
Integrated Lock-in | Up to 6 MHz (software limited) 2nd lock-in (6 MHz-optional) |
Interface | USB (2.0 - 3.0 compatible) |
Controller Power | AC 100 – 240 V - 47-63 Hz |
Operating System | Windows 7 to 10 |
如對此AFM有何技術上之問題或委測需求,歡迎來電: 02-2793-3133 或MAIL至 david.chang@utekmaterial.com
我們將為您提供最即時的諮詢與技術服務。