Surface plasmon polaritons (SPP) that propagate at the interface between metals and dielectrics permit strong optical-mode confinement and are therefore…
While most classical photonic communication systems expend more than a photon’s worth of energy per bit communicated, the physical limits…
Although the majority of silicon photonic research is motivated by end applications where photonic devices can be integrated alongside millions…
The thermoreflectance (TR) technique, shown in Figure 1(a), is utilized to examine thermal conductivity of 0.6% ErAs: N-type InGaAlAs thermoelectric…
Photoacoustic spectroscopy is an optical absorption spectroscopy whereby the absorbed optical power is detected indirectly by sensing the thermal excitation…
For systems biology, the models are more often limited by the absence of reliable experimental data than by available computational…
Developing highly productive cell-culture processes is an essential step in the production of biopharmaceutical products. Process development involves experimentally determining…
Mammalian cell culture dominates the biopharmaceutical industry for biotherapeutics including monoclonal antibodies, vaccines, and growth factors. However, mammalian cells are…
This report addresses the efficient utilization of energy from a thermoelectric module using a low-profile, wearable heat sink. Previous work…
Historically, thermoelectrics have been used primarily for deep-space exploration and waste-heat recovery. We explore the potential of thermoelectrics with solar…
Photonic devices for applications in communications, computing, and biological sensing with special emphasis on fiber-to-the-home, InP photonic integration, Silicon photonics and high speed interconnects, microscale bioreactors, and biomanufacturing.
The core activity of CIPS is the development of a long-range vision for research and the development of integrated photonic…