Company Filing History:

3 out of 4

Heuristics Physics Laboratories, Inc.

patents

2 out of 4

Hpl Technologies, Inc.

patents

1 out of 1

Hueristics Physics Laboratories

patent

4. 1 out of 253

Credence Systems Corporation

patents

5. 1 out of 5,309

Leland Stanford Junior University

patents

Years Active: 2000-2022

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8 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 11295962 - Low temperature process for diode termination of fully depleted high resistivity silicon radiation detectors that can be used for shallow entrance windows and thinned sensors (2022-04-05),

2. 6920596 - Method and apparatus for determining fault sources for device failures (2005-07-19),

3. 6810510 - Method for eliminating false failures saved by redundant paths during circuit area analysis on an integrated circuit layout (2004-10-26),

4. 6795953 - Method for avoiding false failures attributable to dummy interconnects during defect analysis of an integrated circuit design (2004-09-21),

5. 6780656 - Correction of overlay offset between inspection layers (2004-08-24),

6. 6745370 - Method for selecting an optimal level of redundancy in the design of memories (2004-06-01),

7. 6701477 - Method for identifying the cause of yield loss in integrated circuit manufacture (2004-03-02),

8. 6092030 - Timing delay generator and method including compensation for (2000-07-18),

Title: Julie D Segal: Innovator in Radiation Detection Technologies

Introduction

Julie D Segal is a prominent inventor based in Palo Alto, CA (US). She has made significant contributions to the field of radiation detection, holding a total of 8 patents. Her work focuses on innovative methods and technologies that enhance the performance and efficiency of radiation sensors.

Latest Patents

One of her latest patents is a low temperature process for diode termination of fully depleted high resistivity silicon radiation detectors. This technology allows for shallow entrance windows and thinned sensors, enabling a simplified fabrication process compared to conventional methods. The low temperature microwave anneal technique permits back side processing after front side processing without damaging existing structures. This advancement is particularly beneficial for detecting low energy radiation.

Another notable patent is a method and apparatus for determining fault sources for device failures. This method involves generating failure signatures for preselected tests and comparing them with aggregate device test data. The apparatus designed for this method includes at least one circuit, showcasing her innovative approach to troubleshooting device failures.

Career Highlights

Throughout her career, Julie has worked with several companies, including Heuristics Physics Laboratories, Inc. and HPL Technologies, Inc. Her experience in these organizations has contributed to her expertise in the field of radiation detection and device reliability.

Collaborations

Julie has collaborated with notable individuals in her field, including John M Caywood and Sergei Bakarian. These partnerships have likely enriched her work and expanded her impact on the industry.

Conclusion

Julie D Segal is a trailblazer in the realm of radiation detection technologies. Her innovative patents and career achievements reflect her dedication to advancing the field. Her contributions continue to influence the development of more efficient and effective radiation sensors.

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