Add to ORKGAnalog and digital technologies are presented for precise measurement of propagation delay of photons from source and detector placed on portions of the human body. The goal of the apparatus design is to quantify absorption (μa) and scattering (μs′) induced by biological pigments and biological structures, respectively. Body tissues are highly scattering with a mean distance between scatterers of less than a mm (at 700-850 nm). Significant absorption is mainly due to 5%-10% of the tissue volume occupied by blood. Measurement of μa and μs′ is done by both time and frequency domain equipment. This article focuses upon frequency domain equipment because of its simplicity, reduced noise bandwidth, versatility, and the strong analogy to very hig...
The necessity of man–machine communication has been increasing day by day because of the great numbe...
Optical spectroscopy techniques are frequently used for the quantitative analysis of substance compo...
Frequency domain spectrometers use intensity modulated light to quantitatively interrogate turbid me...
Previously, Chance and coworkers have demonstrated the use of time-resolved spectroscopy to detect c...
A 1-GHz multifrequency, multiwavelength frequency-domain photon migration instrument is used to meas...
A non-contact optical system has been designed to determine the absorption and reduced scattering co...
Non-invasive techniques for the study of human brain function based on changes of the haemoglobin co...
In frequency domain photon migration (FDPM), amplitude-modulated light is launched into a turbid med...
Detection limits of the changes in absorption and reduced scattering coefficients were investigated ...
Detection limits of the changes in absorption and reduced scattering coefficients were investigated ...
Frequency domain optical spectroscopy in the diffusive regime is currently being investigated for bi...
A multiwavelength, high bandwidth (1 GHz) frequency-domain photon migration (FDPM) instrument has be...
A multiwavelength, high bandwidth (1 GHz) frequency-domain photon migration (FDPM) instrument has be...
The authors are developing a technique for conducting measurements inside the human body by applying...
We have developed a high-bandwidth frequency-domain photon migration (FDPM) instrument which is capa...
The necessity of man–machine communication has been increasing day by day because of the great numbe...
Optical spectroscopy techniques are frequently used for the quantitative analysis of substance compo...
Frequency domain spectrometers use intensity modulated light to quantitatively interrogate turbid me...
Previously, Chance and coworkers have demonstrated the use of time-resolved spectroscopy to detect c...
A 1-GHz multifrequency, multiwavelength frequency-domain photon migration instrument is used to meas...
A non-contact optical system has been designed to determine the absorption and reduced scattering co...
Non-invasive techniques for the study of human brain function based on changes of the haemoglobin co...
In frequency domain photon migration (FDPM), amplitude-modulated light is launched into a turbid med...
Detection limits of the changes in absorption and reduced scattering coefficients were investigated ...
Detection limits of the changes in absorption and reduced scattering coefficients were investigated ...
Frequency domain optical spectroscopy in the diffusive regime is currently being investigated for bi...
A multiwavelength, high bandwidth (1 GHz) frequency-domain photon migration (FDPM) instrument has be...
A multiwavelength, high bandwidth (1 GHz) frequency-domain photon migration (FDPM) instrument has be...
The authors are developing a technique for conducting measurements inside the human body by applying...
We have developed a high-bandwidth frequency-domain photon migration (FDPM) instrument which is capa...
The necessity of man–machine communication has been increasing day by day because of the great numbe...
Optical spectroscopy techniques are frequently used for the quantitative analysis of substance compo...
Frequency domain spectrometers use intensity modulated light to quantitatively interrogate turbid me...