| Patent Number |
Title Of Patent |
Date Issued |
| 7035307 |
Recycling system for a chemical laser system |
April 25, 2006 |
| A method for collecting, reprocessing, and recycling chemical species used in the operation of a chemical oxygen-iodine laser system, especially a space-based system, is described. The method primarily includes: (1) collecting an amount of spent basic hydrogen peroxide containing aqueous |
| 7023895 |
Integrated dual source recycling system for chemical laser weapon systems |
April 4, 2006 |
| An integrated dual source recycling system and method for a chemical oxygen-iodine laser system is described. The recycling system primarily includes: (1) a first collection system for collecting an amount of spent basic hydrogen peroxide comprised of spent aqueous potassium chloride; |
| 6714579 |
Basic hydrogen peroxide recycling system for chemical oxygen-iodine lasers |
March 30, 2004 |
| A system for collecting, reprocessing, and recycling chemical species used in the operation of a chemical oxygen-iodine laser system, especially a space-based system, is described. The system primarily includes: (1) a collection system for collecting spent basic hydrogen peroxide contain |
| 6687279 |
Integrated dual source recycling system for chemical oxygen-iodine laser weapon systems |
February 3, 2004 |
| An integrated dual source recycling system for a chemical oxygen-iodine laser system is described. The recycling system primarily includes: (1) a first collection system for collecting an amount of spent basic hydrogen peroxide comprised of spent aqueous potassium chloride; and (2) a sec |
| 6650681 |
Sealed exhaust chemical oxygen-iodine laser system |
November 18, 2003 |
| A sealed exhaust chemical oxygen-iodine laser (SECOIL) employing a sealed exhaust system (SES) is described. The SES is capable of selectively condensing and cryosorbing various chemical species contained in the laser-exhaust gas. Additionally, a condensable diluent is employed. The |
| 6621848 |
SECOIL reprocessing system |
September 16, 2003 |
| A sealed exhaust chemical oxygen-iodine laser system is described, wherein the sealed exhaust system includes an adsorption bed for adsorbing sorbable material contained in the laser exhaust gas, and a temperature control assembly for controlling the temperature of the incoming laser |
| 5417928 |
Singlet delta oxygen generator and process |
May 23, 1995 |
| A generator for producing a flow of excited oxygen in the singlet delta electronic state comprising a vacuum chamber, an inlet feed system, an internal reaction zone, a method for cooling said reaction zone, an outlet system for separating the gas from the liquid, and a means for interfa |
| 5316720 |
Laser shock and sintering method for particulate densification |
May 31, 1994 |
| The present invention describes a process for the compaction and densification of discrete powder materials utilizing a high amplitude stress wave which produces a high pressure condition at a surface of the particles thereby driving said stress wave into and through the particles. |
| 4558451 |
Tubular singlet delta oxygen generator |
December 10, 1985 |
| A generating device for producing a laser energizing gas in the singlet delta, electronic state comprising a vacuum chamber; a tubular reaction chamber positioned within said vacuum chamber, said reaction chamber having a closed end and an oppositely disposed open end; means positioned |
| 4434492 |
Method and apparatus for iodine vaporization |
February 28, 1984 |
| Iodine vapor is supplied to an oxygen iodine laser by an improved iodine vaporizer. The vaporizer has a radiation transparent window and iodine crystals are contained in the vaporizer. Broad beam radiation from a variable intensity source is directed through the window into the vapor |
| 4267526 |
Continuous wave chemically pumped atomic iodine laser |
May 12, 1981 |
| CW laser action achieved on the .sup.2P 178-.sup.2P 3/2 transition of the iodine atom by energy transfer from the .sup.1 .DELTA. metastable state of O.sub.2. The effluent from a conventional oxygen generator was mixed with molecular iodine at the entrance of a longitudinal flow laser cav |
| 4246252 |
Gas generating system for chemical lasers |
January 20, 1981 |
| A method for generating electronically excited oxygen by efFecting a chemical reaction between chlorine and basic hydrogen peroxide. |
