Laser Engine Laser Propulsion Engine by Hassan Endan
Laser Engine
Laser Propulsion Engine by Hassan Endan http: //www. geocities. com/laserpropulsion/index. htm http: //laserpropulsion. tripod. com/index. htm
What is Laser Propulsion Engine? ØWhen a high power laser beam impact on a material, the intense heat will form a plasma. ØThis instantaneous plasma formed is similar to like taking a tiny part of the sun into our engine system. ØThis we called laser ablation. ØWith proper design, this tremendous energy (using Newton’s law of motion) could accelerate any object to a very high speed. ØThis can be used to propel rockets, jet planes, ships, trains, buses and cars.
Presentation to Prime Minister Creative Innovative
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My experience – what I learn Student: Laser ablation study and optical systems. Monsanto Electronics: Technique in polishing silicon wafers. Use similar technology in polishing. Siemens: Epoxy for insulation as used in LEDs & Electroplating. Motorola: Wafer fabrication and RF products in telecommunications. Problem solving methodology. SGS Thompson: Machine shop. Astec Electronics: Quality and Reliability, UL, CSA, BS, VDE, TUV approvals and Military standards. ISO 9001/2 Nippon Denso: Welding and precision machining. Sapura: Telecommunications, RF products and manufacturing. Crystal Communication: Leadership quality and important contacts. Creativity and innovations
Study the interactions of different types of lasers with exotic materials (The Laser Engine) Lasers CO 2 Nd-YAG He-Ne ? ? ? Ablation materials Water Acrylic Turpentine Varnish ? ? ?
Discovery breakthrough Further experimentation, repeatability and confirmation The design Creativity, innovation and technology Concept Ideas… and literature review…
Design concept Propulsion system Impact of laser on exotic target Eureka!
What we want and the specifications Size: Diameter to height ratio 1: 5 Solar panel Telecommunications Electronics Telemetry (control) Vision systemtransmission and receive Stability Propulsion Combustion Shielding Security & encryption?
Launching & control Propulsion system is detached Guidance by gyroscope Magnetic field GPS Laser Data transfer rate: Million bits per second
The satellite - Angkasa Orbit: 500 -800 km Vision: 100 x 100 m digital image with image enhancer (Normal, night vision and IR) Telecommunications C band Ku band Telemetry: Laser guided low rf communications, magnetic field, GPS, …
Concept design for the F 5 E The conventional engine and part of the fuel system will be taken out. This will be replaced by the laser propulsion system. The center of gravity will be balanced by the weight of the electric generator. This plane will be adjusted to travel at mach 2. The body structure is not designed to travel faster than mach 3. 0. But we could stress for a few seconds just to show our superiority. Laser propulsion system
Side view of the propulsion system Trust created
Total refurbish may take up to 5 years. Below is the diagram comparison for F 5 E with conventional combustion system and the new laser combustion system. The superiority of laser propulsion are: 1/ Speed exceeding 40, 000 km/hr 2/ Re usable 3/ Short time to commission 4/ Reliable, since it has got less mechanical parts 5/ Minimal maintenance
The above logarithmic graph showed velocity (km/hr) vs time (min) of (i) a liquid fuel combustion – blue line and (ii) a laser combustion – red line. Note that we have to maintain a speed of mach 2. In (iii) is the rocket laser propulsion, which exceeded 40, 000 km/hr speed. Propose to build our own plane using lithium ion (superior than titanium) as a body material and fully remote control. The body structure will be able to withstand 40, 000 km/hr velocity whereby no conventional missile will be able to intercept.
Laser engine Roadmap Year 1 Propulsion system X X X X Solar panel Telecommunications Telemetry and control Vision and image transmission Year 2 Year 3 Year 4 Year 5 X X X X X X X X X X X X X X (Normal, night vision and IR) Quality & Reliability The Satellite (Angkasa) Reliability ( on going with actual satellite life) legend = ( X – 1 quarter) X X X X X X
History of our success…
Applications 1/ Normal, night and infra red vision - resolution 100 m X 100 m Further enhance image using digital image picture enhancer 2/ Payload of multiple 50 kgs can be assembled in space to meet most design. This design can be in modular form 3/ Laser weapon for offensive to shoot any object flying in the sky. The laser source could be on the ground 4/ Anti missile laser guidance system 5/ Radio audio frequency jamming 6/ Transmit audio, video, data, internet and telecommunications system 7/ With multiple satellites could form an offensive weapons against enemy anywhere in the world 8/ Enemy is sitting duck as laser is shot from outer space 9/ Invincible for enemy to attack (no missile could reach outer space) 10/ Monitor what our neighbors are doing? 11/ Monitor terrorist activities 12/ Monitor illegal immigrant movement within country borders 13/ Accurate weather forecast 14/ Topography mapping 15/ Minerals search and geological surveys Virtually there are no limits …
Conclusion Technology comparison & cost estimation: Safe: Conventional use 500, 000 metric ton of H & O. This contribute to 90% of total weight. Ours no fossil fuel. Lead time: Short, virtually can launch the next satellite within 24 hours. Module: Assemble what you want in the sky Vision: The best in it’s class Control: Simple, your children could do it Telemetry: State of art technology With sophisticated networking, you could control this anywhere in the world Images could be sent to anybody and anywhere in this world Kami boleh, Malaysia boleh
Q&A E-mail: crystalcommunication@yahoo. com crystalcommunication@hotmail. com URL http: //www. geocities. com/laserpropulsion/index. htm http: //laserpropulsion. tripod. com/index. htm
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