Space Weather (SIRE2):
Space weather involves the complex interaction of particles and electromagnetic phenomena within our solar system. At Fifth Gait, we use our SIRE2 software to model and analyze how space weather impacts your systems. Whether it’s solar flares, geomagnetic storms, or radiation from deep space, we provide valuable insights to help you understand and prepare for these celestial phenomena. Our modeling expertise enables you to strengthen your systems, ensuring they remain resilient in the face of space-related challenges.
Man-made Radiation (Space & Ground):
Radiation, whether it’s from deep space or a terrestrial source, poses unique challenges to your products. Fifth Gait specializes in modeling and analyzing man-made radiation scenarios, ensuring your systems are prepared for all contingencies. We utilize state-of-the-art software and tools to assess radiation exposure, allowing you to develop strategies for shielding and protection. With our guidance, you can navigate the radiation landscape with confidence, knowing your products are built to withstand the harshest environments.
Radiation Transport (MCNP, GEANT-4):
Radiation transport modeling is crucial for understanding how radiation interacts with matter. Fifth Gait utilizes powerful software like MCNP and GEANT-4 to simulate radiation transport and its effects on your systems. Whether you’re dealing with cosmic rays in space or radiation sources on Earth, our expertise allows you to predict and mitigate radiation-related issues. Trust us to guide you through the intricate world of radiation transport modeling, ensuring your products are resilient in the face of radiation challenges.
Circuit Design (SPICE):
Circuit design is the cornerstone of electronic systems, and at Fifth Gait, we bring precision to this art. Our SPICE (Simulation Program with Integrated Circuit Emphasis) analysis allows us to model and analyze electrical circuits with unparalleled accuracy. Whether you’re developing cutting-edge electronics for space missions or terrestrial applications, our expertise ensures that your circuits meet the highest standards of performance and reliability.
Materials (XTRRA, NASTRAN):
Materials form the foundation of your products, and their properties are critical to success. Fifth Gait employs advanced analysis tools like XTRRA and NASTRAN to assess material behavior in a range of environments. Whether it’s extreme temperatures, radiation exposure, or mechanical stress, we provide you with a comprehensive understanding of how your materials will perform. With this knowledge, you can select the right materials for your project, ensuring longevity and resilience.
Thin Film (TF Calc):
Thin films are the unsung heroes of modern electronics and optics. Fifth Gait’s TF Calc analysis delves deep into the intricacies of thin film behavior, from optical coatings to semiconductor layers. We provide you with a detailed understanding of thin film properties, enabling you to optimize performance and durability. Whether you’re designing cutting-edge optical systems or semiconductor devices, our expertise in thin film analysis ensures your products shine. This should only apply to optics.
EMP (THTk, MEEC):
Electromagnetic pulses (EMP) can pose significant threats to electronic systems. Fifth Gait’s analysis tools, including THTk and MEEC, are your shield against EMP-related issues. We model and analyze EMP scenarios, helping you develop strategies for protection and mitigation. With our expertise, your systems can not only survive but thrive in the face of EMP challenges.
As the founder of Fifth Gait Technologies, Kathy is a radiation-effects scientist with over a decade of experience in the effects of radiation environments on semiconductor devices and materials. Her work has included the prediction and simulation of natural and man-made space nuclear environments as well as performance prediction and testing of solid-state devices subjected to these environments.
As Fifth Gait’s subject matter expert in the areas of modeling, simulation, and testing of space radiation and nuclear weapons effect, Jonathan also engages in systems engineering, hardened design of electro-optical and structural systems, and definition of space and nuclear weapons radiation environments.