Directed Energy System Performance Prediction 1st Edition

Capture the cutting edge of performance modeling with Directed Energy System Performance Prediction, 1st Edition by Graham V. Weinberg. This authoritative guide translates complex physics and engineering into practical, reliable approaches for predicting how directed energy systems perform in real-world conditions.

Dive into clear, methodical explanations of propagation effects, target interactions, system-level metrics, and uncertainty quantification. Weinberg combines rigorous theory with practical modeling strategies that engineers, systems architects, and researchers can apply immediately—whether refining laboratory simulations, planning field tests, or guiding procurement decisions. Emphasis on repeatable, traceable prediction workflows makes this book a vital resource for defense, aerospace, and commercial photonics programs.

Designed for professionals and advanced students worldwide, the text bridges the gap between academia and mission-driven practice. You’ll gain tools to assess environmental influences, evaluate risk, optimize system parameters, and communicate performance expectations to stakeholders and regulators. Realistic examples and step-by-step frameworks help translate data into confident decisions that save time and resources.

Compact yet comprehensive, Directed Energy System Performance Prediction is optimized for practitioners in the US, Europe, Asia-Pacific and beyond seeking dependable, science-based guidance on lasers, high-energy systems, and electromagnetic effects. Enhance your technical library with a go-to reference that supports design, testing, and operational success.

Order your copy today and equip your team with a proven foundation for accurate, actionable directed energy system predictions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.