Publications by authors named "Leonid A Zubkov"
Diffuse photon density wave (DPDW) methodology is widely used in a number of biomedical applications. Here, we present results of Monte Carlo simulations that employ an effective numerical procedure based upon a description of radiative transfer in terms of the Bethe–Salpeter equation. A multifrequency noncontact DPDW system was used to measure aqueous solutions of intralipid at a wide range of source–detector separation distances, at which the diffusion approximation of the radiative transfer equation is generally considered to be invalid.
View Article and Find Full Text PDFThis paper focuses on the development of a finite-element model and subsequent stationary analysis performed to optimize individual flexural piezoelectric elements for operation in the frequency range of 20-100kHz. These elements form the basic building blocks of a viable, un-tethered, and portable ultrasound applicator that can produce intensities on the order of 100mW/cm(2) spatial-peak temporal-peak (I(SPTP)) with minimum (on the order of 15V) excitation voltage. The ultrasound applicator can be constructed with different numbers of individual transducer elements and different geometries such that its footprint or active area is adjustable.
View Article and Find Full Text PDFArticle Synopsis
- This paper focuses on optimizing lightweight, battery-operated ultrasound transducers for biomedical use, targeting frequencies of 20-100kHz.
- The aim is to create a wearable ultrasound applicator that operates on low excitation voltages (10-25V) while delivering sufficient acoustic pressure (approximately 55kPa or 100mW/cm²) for therapeutic applications like chronic wound management and drug delivery.
- Early prototypes were designed using complex impedance analysis and are powered by portable lithium polymer batteries, enabling features like adjustable duty cycles and continuous or pulsed operation.