S. Sharan scite author profile

The nucleation and glide of misfit dislocations in the GaAs/Si system has been investigated using transmission electron microscopy. GaAs epilayers of different thicknesses were examined by electron microscopy (plan and cross section) and the elastic strain remaining in the film has been related to the average spacing of the misfit dislocations at the interface. The 1000-Å-thick GaAs epilayer contains mostly 60° misfit dislocations with an average spacing larger than the equilibrium dislocation spacing, which implies that the misfit strain is not fully relieved. The 2000-Å and thicker GaAs epilayers contain predominantly 90° misfit dislocations with an average spacing between the dislocations less than the equilibrium dislocation spacing. The formation of sessile 90° dislocations at the interface is explained on the basis of a reaction of two 60° dislocations. A model is developed based on minimum energy considerations to determine the strain-versus-thickness relationship. The theoretical predictions of strain relaxation are compared with experimental observations using high-resolution electron microscopy.

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Growth of ceramic thin films on Si(100) using an in situ laser deposition technique

Tiwari

Sharan

Narayan

1991

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Embedded Multidie Interconnect Bridge—A Localized, High-Density Multichip Packaging Interconnect

Mahajan

Qian

Viswanath

et al. 2019

IEEE Trans. Compon., Packag. Manufact. Technol.

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S. Sharan

Embedded Multi-die Interconnect Bridge (EMIB) -- A High Density, High Bandwidth Packaging Interconnect

Mechanism of formation of 60° and 90° misfit dislocations in semiconductor heterostructures

Strain relief mechanisms and the nature of dislocations in GaAs/Si heterostructures

Growth of ceramic thin films on Si(100) using an in situ laser deposition technique

Embedded Multidie Interconnect Bridge—A Localized, High-Density Multichip Packaging Interconnect

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