Biography
Dr Geer Teng is recieved his BEng and PhD degrees in Beijing Institute of Technology. His doctoral research was focued on the diagnosis of tumor and bacteria based on laser-induced breakdown spectroscopy and spectroscopy imaging. In 2022 he joined the BUBBL group as a postdoctoral research assistant in optical and acoustical characterization of biological structures.
Most Recent Publications
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
Current Projects
To develop apparatus and protocols for spectroscopic imaging of biological structures exposed to physical stimuli.
Research Groups
Related Academics
Most Recent Publications
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
Most Recent Publications
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Multi-angle and full-Stokes polarization multispectral images using quarter-wave plate and tunable filter
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Accuracy Enhancement Of Glioma Boundary Tissue Identification By Polarization-Resolved LIBS Spectral Fusion
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Modulate the laser phase to improve the ns-LIBS spectrum signal based on orbital angular momentum.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Full-Stokes polarization laser-induced breakdown spectroscopy detection of infiltrative glioma boundary tissue.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
Comparison of whole blood and serum samples of breast cancer based on laser-induced breakdown spectroscopy with machine learning.
