Thomas James Soldi

Title: Thomas James Soldi: Innovator in Etching Technologies

Introduction

Thomas James Soldi is a notable inventor based in West Simsbury, CT (US). He has made significant contributions to the field of etching technologies, holding a total of 2 patents. His work focuses on improving methods for material processing, particularly in the semiconductor industry.

Latest Patents

Soldi's latest patents include innovative methods that enhance etching processes. One of his patents, titled "Etch Improvement," describes a method that involves exposing a first material on a substrate to an ion beam. This method allows for the formation of a first plurality of structures by directing the ion beam at a specific angle relative to the substrate's surface normal. The exposure is incrementally varied to create depth variations among the structures.

Another significant patent is "Shadow Mask Apparatus and Methods for Variable Etch Depths." This patent outlines methods for producing grating materials with variable heights. The process includes positioning a shadow mask between the grating material and an ion source, allowing for controlled etching through openings in the mask. This results in different depths for various portions of the grating material.

Career Highlights

Thomas James Soldi is currently employed at Applied Materials, Inc., a leading company in the semiconductor equipment industry. His work at Applied Materials has allowed him to develop and refine his innovative etching techniques, contributing to advancements in material processing.

Collaborations

Soldi has collaborated with notable colleagues, including Joseph C Olson and Morgan Evans. These collaborations have fostered a creative environment that encourages the development of cutting-edge technologies in the field.

Conclusion

Thomas James Soldi is a prominent inventor whose work in etching technologies has led to significant advancements in the semiconductor industry. His innovative patents and contributions continue to shape the future of material processing.