Abstract: Described herein are various implementations of systems and methods for accessing and modulating tissue (for example, systems and methods for accessing and ablating nerves or other tissue within or surrounding a vertebral body to treat chronic lower back pain). Assessment of vertebral endplate degeneration or defects (e.g., pre-Modic changes) to facilitate identification of treatment sites and protocols are also provided in several embodiments. Several embodiments include robotic elements for, as an example, facilitating robotically controlled access, navigation, imaging, and/or treatment.

Abstract: Conventional high performance computer connections are electron-based systems, which require the memory packages to be as close as mechanically possible to the computation engine. Low power and high bandwidth communication, e.g. photonic, links can drastically change the architecture of high-performance computers by eliminating the bottlenecks in communication and augment existing memory systems to allow them to be both high capacity and high bandwidth simultaneously.

Abstract: A microelectromechanical system (MEMS) device includes an actuator having a plurality of charge collection elements. At least one of the charge collection elements is configured to build up electrical charges by directly interacting with an energy field thereby actuating the MEMS through Coulombic interactions. An actuator for a MEMS device is configured to actuate the MEMS device through Coulombic interactions by pumping charges to the actuator when subject to an energy field. A method of actuating a MEMS device includes irradiating an actuator of the MEMS device with an energy field thereby building up electrical charges on the actuator, and actuating the MEMS device with Coulomb forces from the built up electrical charges.