- National Security
- C4ISR Systems
- Chem Bio/Defense
- Decision Support
- Development & Application of Security Risk Management Process
- Disaster Management &
Evacuation Planning - First Responder Tools
- Forensic Analysis
- Information & Intelligence
- Manufacturing/Prototyping
- Infrastructure
- Energy & Environment
- Health & Human Safety
- All
- National Security
- Advanced Energy Systems
- Chem Bio/Defense
- Decision Support
- Development & Application of Security Risk Management Process
- Disaster Management &
Evacuation Planning - First Responder Tools
- Forensic Analysis
- Information & Intelligence
- Manufacturing/Prototyping
- Modeling & Simulation
- Natural Hazard Threat & Vulnerability Assessment
- Physical & Electronic Security Design & Installation
- Probabilistic Risk Assessment & Design Optimization
- Progressive Collapse & Blast Analysis Design
- Robotics
- Sensor Systems
- Systems Engineering & Integration
- Test & Evaluation
- Threat & Vulnerability Assessment
- Training & Multimedia
- Weapon Effects
- Weapon Systems
- Infrastructure
- Aircraft Operating Surfaces
- Airport Services
- Asset Management
- Coastal Engineering Data Management
- Crashworthiness Analysis
- Fire Fighting Systems
- Intelligent Transportation Systems
- Operations Research
- Pavement Engineering
- Pavement-Related Software
- Safety
- Structural Mitigation Strategies
- Sustainability
- Traffic Monitoring
- Transportation System Security
- Energy & Environment
- Alternative Fuels
- Environmental Management Services
Showcase Project | Optics Laboratory Holographic Lithography System (HLS)
HLS Laser System and 0.5um Ablated Holes
Holographic masters from Creative MicroSystems are used to accurately reproduce full field images for semiconductor device packaging, MEMS + NEMS technologies, and for exploration of Next Generation Lithography methods, NGL.
The HLS unique method relies upon the holographic master to formulate the images instead of costly (>$10M) projection optics.
The heart of the system holds a highly adjustable High power / short pulse Solid State Nd:YAG Diode pumped laser. The vertical configuration allows for a wide variety of concurrent laser research programs to time share a variety of beam profiles, spots and wavelength needs.
The System is capable of producing native 1064nm, as well as second, third, and fourth harmonic wavelenghts.
Partner with us!
To submit your inquiries about our natioanl security services, e-mail nationalsecurity@ara.com.
