Add to ORKGAdvantages and disadvantages of various types of temperature measurement techniques are reviewed in terms of potential temperature measurement errors and their impact on process consistency. Direct wafer temperature control and indirect wafer temperature control through control of the wafer environment are compared from the viewpoints of process accuracy and repeatability. The origin of both intrinsic and extrinsic pattern effects is identified and its impact on thermal non-uniformities in various wafer heating environments is analyzed. Based on the analysis, effective RTP strategies for highly uniform and repeatable process results on patterned wafers are proposed and discussed
International audienceIn the rapid thermal processing of a semi-conductor wafer, the temperature of ...
This paper presents an application of Iterative Learning Control (ILC) methodology to the temperatur...
Microscale radiation effects are responsible for the dependence of absorption and temperature distri...
Temperature measurements and processing uniformity continue to be major issues in Rapid Thermal Proc...
Rapid Thermal Processing (RTP) involves heating a single wafer at a high rate, to a high temperature...
Thermal processing is used in various stages of microelectronics fabrication. One of the heating pro...
The influence of patterns on emissivity in silicon wafers in rapid thermal processing systems has be...
Thermal processing is used in various stages of microelectronics fabrication. One of the heating pro...
A wafer temperature control system is developed for rapid thermal processing (RTP) semiconductor man...
Rapid thermal processing (RTP) is a method of thermally processing wafers for the manufacture of int...
A Rapid Thermal Processing (RTP) chamber capable of plasma-enhanced CVD was built with associated c...
Pattern effects during RTP have been extensively studied for the last 15 years, but have only recent...
Single-wafer rapid thermal processing (RTP) is widely used in semiconductor manufacturing. Achieving...
Measurement and control of substrate temperature is critical to the reduction of process variation w...
Rapid thermal processes are used in various key stages in the microelectronics industry. In this stu...
International audienceIn the rapid thermal processing of a semi-conductor wafer, the temperature of ...
This paper presents an application of Iterative Learning Control (ILC) methodology to the temperatur...
Microscale radiation effects are responsible for the dependence of absorption and temperature distri...
Temperature measurements and processing uniformity continue to be major issues in Rapid Thermal Proc...
Rapid Thermal Processing (RTP) involves heating a single wafer at a high rate, to a high temperature...
Thermal processing is used in various stages of microelectronics fabrication. One of the heating pro...
The influence of patterns on emissivity in silicon wafers in rapid thermal processing systems has be...
Thermal processing is used in various stages of microelectronics fabrication. One of the heating pro...
A wafer temperature control system is developed for rapid thermal processing (RTP) semiconductor man...
Rapid thermal processing (RTP) is a method of thermally processing wafers for the manufacture of int...
A Rapid Thermal Processing (RTP) chamber capable of plasma-enhanced CVD was built with associated c...
Pattern effects during RTP have been extensively studied for the last 15 years, but have only recent...
Single-wafer rapid thermal processing (RTP) is widely used in semiconductor manufacturing. Achieving...
Measurement and control of substrate temperature is critical to the reduction of process variation w...
Rapid thermal processes are used in various key stages in the microelectronics industry. In this stu...
International audienceIn the rapid thermal processing of a semi-conductor wafer, the temperature of ...
This paper presents an application of Iterative Learning Control (ILC) methodology to the temperatur...
Microscale radiation effects are responsible for the dependence of absorption and temperature distri...