This invention, the “Charge Cloud Tracker” is a fast, low-cost, strip geometry x-ray detector that is predicted to provide limiting resolution on the order of 5 microns, with very high x-ray detection efficiency.
Stanford researchers have designed a method to increase the photoyield of thin film CsBr/metal photocathodes by activation with electron bombardment, allowing efficient operation at UV and longer incident light wavelengths.
A researcher at SLAC National Accelerator Laboratory has developed a pulsed X-ray system for fast, high-throughput, unambiguous identification of materials in moving containers.
Stanford researchers have demonstrated a new passive cavitation mapping algorithm based on sound localization of multiple scatters of cavitation. It shows improved resolution as compared to existing passive cavitation mapping algorithms based on a basic beamforming.
Stanford researchers have demonstrated the use of a coherent frequency-domain technique in microwave thermoacoustic imaging, which significantly improves signal-to-noise ratio (SNR) and reduces peak-power requirements without sacrificing resolution or other performance metrics
Stanford Researchers have patented a method and apparatus for detecting ionizing radiation, that, if successful, would achieve a coincidence time resolution 100x better than current positron emission tomography (PET) detectors.
Stanford researchers patented a capacitive micromachined ultrasonic transducer (CMUT) with a pressurized cavity for use in environments with extreme pressure variations.
Stanford researchers have patented a new method for Compressed Sensing (CS) which reconstructs signals and images from significantly fewer measurements than current standards while maintaining high reconstruction accuracy.
Stanford researchers at the Rao Lab have developed apoptosis imaging probes with an improved new molecular structure enabling high sensitivity and stability with better performance in vivo.
An interdisciplinary team of Stanford researchers is developing a dual axis confocal (“DAC”) microscope system for in vivo imaging of tissues at the cellular scale.
Stanford researchers have developed a portable particle accelerator – the SLAC Piezoelectric Accelerator Neutron Source (SPAN). When combined with an ion source and a deuterated target, this piezoelectric, high-voltage generator makes a compact neutron generator system.
Stanford researchers at the Airan Lab have developed a new method for robust and spatiotemporally precise non-invasive neuromodulation that could transform both basic and clinical neuroscience.
Researchers at the Solgaard Lab have demonstrated that light sheet fluorescence microscopy (LSFM) with structured and pivoting illumination enables fast image acquisition and improved image quality.