ABSTRACT
Several suggestions for potential pathways toward the development of this component might initially include detailed investigations into nanometric capacitive ultrasonic transducers, and thin lm bulk acoustic resonators (FBARs). Hypothetically, nested nanomagnetic entities might exhibit the possibility of inducing localized Larmor precession (as in magnetic resonance imaging [MRI]) through the generation of transient magnetic standing waves. Quantum dot/wire lasers may potentially be utilized for the generation of nanoscale LIDAR-like topographies, or might be employed to initiate detectable sonic echoes when they impact the surface of the blood vessel walls. Lasers might be utilized in conjunction with ultrasound to achieve elucidation of vascular wall topographies.
