Intel Corporation
MULTIPLE STRAIN STATES IN EPITAXIAL TRANSISTOR CHANNEL THROUGH THE INCORPORATION OF STRESS-RELIEF DEFECTS WITHIN AN UNDERLYING SEED MATERIAL

Abstract:

Multiple strain states in epitaxial transistor channel material may be achieved through the incorporation of stress-relief defects within a seed material. Selective application of strain may improve channel mobility of one carrier type without hindering channel mobility of the other carrier type. A transistor structure may have a heteroepitaxial fin including a first layer of crystalline material directly on a second layer of crystalline material. Within the second layer, a number of defected regions of a threshold minimum dimension are present, which induces the first layer of crystalline material to relax into a lower-strain state. The defected regions may be introduced selectively, for example a through a masked impurity implantation, so that the defected regions may be absent in some transistor structures where a higher-strain state in the first layer of crystalline material is desired.