Rapid Thermal Processing of Silicon Wafers with Emissivity Patterns
نویسندگان
چکیده
Fabrication of devices and circuits on silicon wafers creates patterns in optical properties, particularly the thermal emissivity and absorptivity, that lead to temperature nonuniformity during rapid thermal processing (RTP) by infrared heating methods. The work reported in this paper compares the effect of emissivity test patterns on wafers heated by two RTP methods: (1) a steadystate furnace or (2) arrays of incandescent lamps. Method I was found to yield reduced temperature variability, attributable to smaller temperature differences between the wafer and heat source. The temperature was determined by monitoring test processes involving either the device side or the reverse side of the wafer. These include electrical activation of implanted dopants after rapid thermal annealing (RTA) or growth of oxide films by rapid thermal oxidation (RTO). Temperature variation data are compared with a model of radiant heating of patterned wafers in RTP systems.
منابع مشابه
Temperature Measurement in Rapid Thermal Processing Using the Acoustic Temperature Sensor - Semiconductor Manufacturing, IEEE Transactions on
Acoustic techniques are used to monitor the temperature of silicon wafers in rapid thermal processing environments from room temperature to 1000" C with f 5 " C accuracy. Acoustic transducers are mounted at the bases of the quartz pins that support the silicon wafer during processing. An electrical pulse applied across the transducer generates an extensional mode acoustic wave which is guided b...
متن کاملKinetics of the end of range damage dissolution in flash-assist rapid thermal processing
This study investigates the effectiveness of flash-assist rapid thermal processing in dissolving the end of range damage inherent to preamorphizing implants. A series of silicon wafers is preamorphized with a Ge implant and subsequently implanted with B. The wafers are then subjected to a flash anneal, a rapid thermal anneal, or both annealing processes. The flash anneal results in higher defec...
متن کاملTemperature control of silicon-germanium alloy epitaxial growth on silicon substrates by infrared transmission
We report the application of the technique of infrared transmission to measure the temperature of silicon wafers during the growth of silicon-germanium alloy heteroepitaxial layers in a rapid thermal processing system. The silicon-germanium alloy layers have negligible absorption at 1.3 and 1.55 pm over wide ranges of thickness, composition, and strain condition. The substantial improvement of ...
متن کاملUncertainty in the Temperature of Silicon Wafers Measured by Radiation Thermometry Based upon a Polarization Technique
− The emissivity behaviour of a silicon wafer under various conditions was theoretically and experimentally investigated. As a result, the quantitative relationship between the ratio of p-polarized radiance to spolarized one, and polarized emissivities was obtained irrespective of the emissivity change of wafers due to the oxide film thickness under the wide variations of resistivity. Based on ...
متن کاملPhoton effect on radiative properties of silicon during rapid thermal processing
Emissivity is a critical parameter in the rapid thermal processing ~RTP! of semiconductors for temperature control and thermal modeling. It is often considered as a material property that depends on the sample temperature and surface finishing. For a silicon wafer placed in a radiation environment such as a RTP chamber, however, the ambient photons emitted from lamps create electron-hole pairs ...
متن کامل