LLNL researchers have developed a technology suite that includes several methods for detecting trace levels of illicit drugs even in mixtures. These methods can be used as a rapid screening test for incoming samples; for the samples that were determined to contain detectable amounts, they would undergo final verification using conventional laboratory analytical techniques.
Keywords
- Show all (79)
- Synthesis and Processing (16)
- Sensors (15)
- Materials for Energy Products (6)
- Data Science (5)
- Additive Manufacturing (4)
- Cybersecurity (4)
- Ground Penetrating Radar (4)
- Material Design (4)
- Defense Technologies (3)
- Imaging Systems (3)
- 3D Printing (2)
- Computing (2)
- Membranes (2)
- Simulation (2)
- Additively Manufactured (AM) Optics (1)
- Information Technology (1)
- Magnet Compositions (1)
- Structural Materials (1)
- (-) National Security Forensics (2)
- (-) Material Characterization (1)
Technology Portfolios
To address the need for realistic and high-fidelity first responder training, a multidisciplinary team at LLNL has worked to establish the new gold standard simulator called TARANTULA (Tactical Augmented Reality Applications for Nuclear Emergency Support Team (NEST) Training using Livermore Analytics). TARANTULA is a scientifically accurate, fully functional, field-deployable simulator that…
There are three main components to the RaFTS system: 1) the radiation detector, which can be of any type and from any manufacturer; 2) the RaFTS electronics, which produce the electronic pulses that are injected into the electronics of the radiation detector through a (to be) standardized port interface; and 3) the exercise scenario, which defines the synthetic radiation field and time-varying…