Thermal Boundary Resistance: A Review of Molecular Dynamics Simulations and Other Computational Methods

Abstract: Continued miniaturization of microelectronics has led to increased energy and interface density within those electronics. With each new interface, a new thermal resistor is created, preventing heat from efficiently escaping the device. This is such a problem that Kapitza resistance or thermal boundary resistance is now the dominant cause of thermal resistance in most microelectronics. Thermal boundary resistance has been studied extensively. However, thermal boundary resistance remains poorly understood. In th… Show more