Photo Gallery

Dr. Braby is aligning the microbeam for cell irradiation.

Dr. Braby and a close-up view of the microbeam.

Dr. DePriest is seen preparing a cell culture.

Dr. Botting adjusting a magnet on the accelerator.

Irradiation samples for isotope production.

Dr. Reece manipulating a hot cell.

Close up view of a hot cell.

Undergraduate and Graduate students operate a thermal-hydraulic experiment aboard NASA's KC-135 Weightless Wonder also know as the Vomit Comet.

Nuclear engineering students floating in zero gravity carry out two-phase flow experiments for NASA's Crew and Thermal Systems.

The department of Nuclear Engineering's Interphase Transport Phenomena laboratory flight team aboard NASA's KC-135 Reduced Gravity Aircraft.

Open air movement of spent fuel.

Injectable sources for prostate cancer.

Ti tubes and I-125 coated spheres.

Laser welded seeds to treat various cancers.

Neutron activation analysis laboratory.

Gamma spectrum.

Dense Plasma Focus (DPF) Facility has the ability to simulate aspects of thermonuclear devices, and can also provide conditions to develop and test new diagnostic instruments.

The TAMU TedibeAr Laboratory is to develop and demonstrate the science necessary to create an advanced weapons neutralization capability.

Conventional pulsed power provides the necessary power supplies for the laboratory-based studies, while teaching students the fundamentals for design and application.

An electron microbeam is used to try to quantify bystander effects produced by moderate energy electrons.

Zero-gravity Phase Separation Experiment.

Zero-gravity Phase Separation Experiment.

Zero-gravity Two-phase Bubbly Flow.

A new perspective aboard the KC-135.

Zero-gravity integrated experiment package aboard the KC-135.