and pin data were obtained by a pulse telemetry system, (3) stage interval times were measured from Teller light by sweeping cameras and a photo- electric telescope, and (4) interval times were measured by an electromagnetic pickup station. 3. Janet, Eniwetok. Three UCRL events (Dogwood, Olive, and Pine) were fired off Janet. Edgerton, Germeshausen & Grier, Inc., provided the electronic support for the following diagnostic measurements: (1) peak pri- mary alpha on Dogwood and Olive, (2) secondary alpha on Dogwood, (3) time interval between the two primaries on Pine, and (4) secondary interval time on all three. 4, Yvonne, Eniwetok. The last two UCRL shots (Quince and Fig) were fired on Yvonne. EG&G operated the diagnostic station. Complete alpha versus time curves and high explosive transit time data were obtained. The results of these experiments are contained in the preliminary shot reports and in the various technical reports written by the groups involved. Program 24, Phonex Program 24 was conducted to measure the number and energy distri- bution of the neutrona leaving the surfaces of devices on the Maple and Hickory events. The neutrons were detected by observing proton tracks left in nuciear track emulsions by protons ejected from a thin polyethylene radiator. The number of neutrons was determined from the density of proton tracks in the emulsion coupled with the known geometry of the experiment. The energies of the neutrons were determined from the ranges of the protons in the emulsion. In order to protect the emuisions from blast and radiation, the cameras were placed in heavily shielded collimators. For the Maple event, three such collimators were placed on Fox at distances of 500, 700, and 900 yd from the device. For the Hickory event two collimators were placed on Tare at distances of 240 and 400 yd. The emulsions were successfully recovered from all stations and will be processed and scanned at Liver- more. 2.4 TASK UNIT 4, SC PROGRAMS Program 32, Doorknob The original intent of Program 32 was to measure the neutron, x-ray, total thermal, and gamma ray emission from a nuclear device burst at an altitude of 250,000 ft. Additional measurements were incorporated in the program as techniques became available for attempting them. These were a sampling of the radioactive debris, optical coverage of the burst, and a measurement of RF attenuation and refraction caused by the ionization of the atmosphere. The techniques designed to accomplish the mission of the program and the specific measurements and instrumentation involved are as follows: 1, Stations for measuring the neutron, gamma ray, x-ray, and total thermal emissions were put at specified locations by one~ and two-stage rocket-propelled instrument carriers. The propulsion units were modified LaCrosse solid propellant motors. The auxiliary hardware was designed specifically for these tests. The carriers were unguided, rail launched bal50