The Chemical Connection: Common Misconceptions in Wet Processing
It’s Only Common Sense: Selling to Engineers
American Made Advocacy: America, It’s Time to Reclaim Manufacturing Leadership
U.S. Army Selects Lockheed Martin To Deliver 300 KW-Class, Solid State Laser Weapon System
October 10, 2023 | Lockheed MartinEstimated reading time: 1 minute
Lockheed Martin was awarded a contract to develop and deliver up to four 300 kW-class laser weapon systems to the U.S. Army’s Indirect Fire Protection Capability-High Energy Laser (IFPC-HEL) prototype program. The IFPC-HEL system complements other layered defense components to protect soldiers from stressing threats, unmanned aerial systems, rocket, artillery and mortars, along with rotary and fixed-wing aircraft.
“Winning the IFPC-HEL prototype contract is the result of several years of complex program evolution, strategic investments and partnership with the Army on this program,” said Rick Cordaro, vice president of Lockheed Martin Mission Systems & Weapons. “Our mature directed energy technology enables Lockheed Martin to provide speed, agility, and 21st Century Security solutions to the Army.”
Lockheed Martin will deliver two 300 kW-class IFPC-HEL prototypes with an option for two additional 300 kW-class units.
The Evolution of IFPC-HEL
- Since 2019, Lockheed Martin was integral to the transition from the 100 kW-class science and technology program, the High Energy Laser Tactical Vehicle Demonstrator (HEL-TVD), to deliver a 300 kW-class IFPC-HEL demonstrator.
- In 2020, Lockheed Martin was awarded a contract to develop a compact, ruggedized 300 kW-class laser for the Department of Defense.
- In August of 2022, Lockheed Martin delivered the High Energy Laser Scaling Initiative (HELSI) laser for use in the IFPC-HEL demonstrator, which was the most powerful solid-state directed energy technology delivered at that time.
Our Directed Energy Legacy
Our 300 kW-class laser weapon system design and build was enabled by significant investments in directed energy technology and the contributions of a dedicated team. Lockheed Martin applies more than 40 years of experience in the research, design, development, and capture of electromagnetic energy to elevate its power for innovative 21st Century Security solutions.
Share on:
Suggested Items
2024 Global Semiconductor Materials Market Posts $67.5 Billion in Revenue
04/29/2025 | SEMIGlobal semiconductor materials market revenue increased 3.8% to $67.5 billion in 2024, SEMI, the global industry association representing the electronics design and manufacturing supply chain, reported in its Materials Market Data Subscription (MMDS).
New RF Materials Offer Options for RF Designers
04/29/2025 | Andy Shaughnessy, Design007 MagazineThe RF materials arena has changed quite a bit in the past decade. The newest thermoset laminates boast performance numbers that are almost competitive with PTFE, but without the manufacturability challenges. At IPC APEX EXPO this year, I spoke with Brent Mayfield, business development manager at AGC Multi Material America. Brent walked through some recent innovations in RF materials, advances in resin systems, and the many design trade-offs for RF engineers to consider for each material set.
Real Time with... IPC APEX EXPO 2025: Winner of the IPC Best Student Poster Award
04/29/2025 | Real Time with...IPC APEX EXPOSebastian Carrillo, winner of the Best Student Technical Poster Award, shares insights on his research in nanotechnology and plasmonics. His work on a metal insulator nano array focuses on light-matter interactions at the nanoscale. With advancements in manufacturing, applications include sensing technologies and photovoltaic systems. Sebastian discusses his project involving simulations and optical experiments. His career goals are in research, and he encourages students to seize academic opportunities.
New IPC Standard Sets First Global Benchmark for E-Textile Wearable Reliability
04/29/2025 | IPCIPC announces the release of IPC-8981, Quality and Reliability of E-Textile Wearables. This first-of-its-kind standard sets baselines for testing and classifying e-textile wearables, addressing key challenges in product reliability, performance, and quality assurance.
Rising Star Award: Paavo Niskala, TactoTek
04/28/2025 | Nolan Johnson, I-Connect007Paavo Niskala joined the IPC community in 2022 as part of the inaugural steering group for in-mold electronics. He led the development of standard IPC-8401, Guidelines for In-Mold Electronics, chairing the project from its inception to its publication in 2024. Currently, Paavo serves as vice chair of the D-84A Plastronics Accelerated Reliability Testing Task Group, contributing his expertise to advancing reliability standards in the field.