Description
ZEISS LSM 910 is an advanced confocal laser scanning system designed for high-precision fluorescence imaging and analysis of biological samples. The system integrates confocal microscopy, super-resolution techniques, high-speed 4D scanning, and molecular dynamics analysis.
With its integrated optical and detection architecture, the system delivers consistent image quality, precise spectral separation, and flexible configuration for a wide range of applications — from structural imaging to real-time live cell studies.
Key Specifications
- Type: confocal laser scanning system.
- Multi-channel fluorescence imaging.
- Optical sectioning and 3D reconstruction.
- Modular configuration for various applications.
Main Capabilities
- High-precision optical scanning and 3D imaging.
- Multi-spectral fluorescence imaging with signal separation.
- Real-time live cell imaging.
- Analysis of molecular interactions and dynamics.
- Handling large sample volumes and datasets.
Technologies & Modes
- Airyscan: enhanced resolution and sensitivity.
- Lightfield 4D: high-speed volumetric imaging (up to 80 volumes/sec).
- Spectral detection: precise fluorescence signal separation.
- LSM Plus: improved signal-to-noise ratio and image quality.
System Features
- Flexible detection system with spectral channels.
- Laser sources with multiple wavelengths.
- High-speed scanning and zoom capabilities.
- Compatibility with upright and inverted platforms.
- Support for long-term experiments (temperature & CO₂ control).
- ZEN software for control, processing, and analysis.
Advantages
- Integrated system approach: complete solution for advanced research.
- High precision: reliable and reproducible results.
- Speed: ideal for dynamic processes.
- Gentle imaging: reduced photodamage.
- Scalability: adaptable to evolving research needs.
