Full-field transmission X-ray microscope

The full-field transmission X-ray microscope (TXM) is operated at the high flux U41_PGM undulator beamline in the soft and tender X-ray range using partially-coherent object illumination. This setup allows for high resolution images of cryogenic thick biological specimens with 3-D resolution around 30 nm (half-pitch). Additionally, due to the high energy resolution spatially-resolved NEXAFS studies (NEXAFS-TXM) for material and energy sciences are possible. An incorporated fluorescence light microscope records fluorescence, bright field and DIC images of cryogenic samples (cells).

Selected Applications:

• X-ray nano-tomography of cells and porous materials
• NEXAFS-TXM (spectro-microscopy) of nanoscale materials
• In-situ investigation of catalytic materials
• Electromigration and stress migration in semiconductors
• Dichroism in materials

The X-ray microscope

Methods

Fluorescence Imaging, X-ray Microscopy, X-ray Tomography, NEXAFS

Remote access

depends on experiment - please discuss with Instrument Scientist

Optical setup of the TXM and experimental techniques

Schematic setup of the incorporated light microscope

Technical specifications

In the nano-ages new tools for the analysis of complex structures are essential. The HZB microscopy group develops novel methods for X-ray imaging to make use out of the unique interactions of X-rays with matter. For this, X-ray optics for the 10 nm scale characterization of the nanostructure, chemical nature, and composition of materials with high energy resolution are engineered and fabricated. We have developed a novel full-field transmission X-ray microscope (TXM) for the soft X-ray range that uses partially-coherent object illumination instead of the quasi-coherent illumination used in earlier setups. 

This TXM had demonstrated its high potential for life sciences by nano-tomography of cryogenic samples.  High resolution images of cryogenic thick biological specimens with 3-D resolution around 30 nm ( half-pitch) have been achieved. Additionally, due to the high energy resolution spatially-resolved NEXAFS studies (NEXAFS-TXM) for material sciences are possible.

An incorporated fluorescence light microscope was developed. This permits to record fluorescence, bright field and DIC images of cryogenic samples (cells) inside the TXM. Thus, two complementary imaging modalities are available and allow correlative studies.  

The optical design of the TXM at the BESSY II undulator beamline U41-L06-PGM1 allows high spectral resolution of up to E/ΔE = 10000, 25 nm (half-pitch) spatial resolution and field of views in the range of 10 -  15 µm. Using the third order of diffraction of a zone plate objective with 20 nm outermost zone width fabricated at the HZB (using our advanced electron beam lithography system EBPG5000plusES from Vistec), 11 nm lines and spaces of a multilayer test structure were clearly resolved.