TriLambda Nano-XRM – 40 nm high resolution x-ray microscope
from SIGRAYTri Lambda ™-40 3D nano x-ray microscope is the highest resolution (40 nm) laboratory x-ray microscope in the world, with the power to image internal nanostructure and optimized performance in a wide range of samples, spanning everything from cells and polymers to geological samples and metals.
Further information
The TriLambda40™ system was developed to help research groups performing XRM experiments primarily at synchrotron setups who are limited by beamtime and who needed ultra-high resolution. The TriLambda40™ advantages at a glance are:
- Highest resolution 3D XRM, with 40 nanometer spatial resolution
- Patent-pending x-ray source with multiple x-ray source target materials for unique advantages including dual energy imaging and optimization of acquisition speed
- Optimized throughput for time-based (4D) & in-situ studies
- Designed by the world’s foremost experts on x-ray microscopes
Sigray has developed an ultrahigh brightness x-ray source featuring an x-ray target comprised of multiple materials in close thermal contact with a diamond substrate. Software selection of the target material enables rapid switching between different characteristic x-ray energies of each material, for example:
- 8 keV (for metallic and semicon samples)
- 6,4 keV (for ceramics)
- 5,4 keV (for rock samples, stained cells and bones)
- 2,7 keV (for unstained cells)
Specifications
Parameter | Specification |
High resolution mode | |
Resolution | 40 nm |
Voxel | 13 nm |
Field of view | 18 μm |
Sample size | 15 - 25 μm preferred |
Large field of view mode | |
Resolution | 120 nm |
Voxel | 40 nm |
Field of view | 60 μm |
Sample size | 60 - 100 μm preferred |
Contrast mode | Absorption and phase contrast |
Source | Sigray high brightness microfocus source |
Target material | Dual energy (standard): Cr (5.4 keV) and Cu (8.0 keV) Additional targets include: Fe (6.4 keV), Au (9.7 keV), others available on request |
Power | 100 W |
X-ray optics | |
Condenser | 2 sets of Sigray twin paraboloidal x-ray optics matched to zone plates |
Focusing objective | Fresnel diffraction zone plate lens system |
Phase ring | Zernike phase shift ring |
X-ray detectors | High efficiency x-ray detector sys- tem, CCD 2048 x 2048 pixel |
Footprint [L x W x H] | 2.3 x 1.3 x 1.5 m, 2000 kg |
Maximum load | 1 kg |
Stage | High precision tomography stage with 12 x 10 x 12 mm travel XYZ |
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Quantum Design GmbH
Meerstraat 177
B-1852 Grimbergen
Belgium
Mobil: | +32 495 797175 |
E-mail: | beneluxqd-europe.com |