This paper gives an insight into a lunar-research-base designing concepts. The base will open new vistas forexpanding human influence outside earth. And gradually this moon research settlement will be used for furtherexpanding our scope to other planets of our solar systems. Northern side of the peary crater of moon will besettlement-area. The crater will provide partial fortification from solar winds and space debris. The primary energysource for powering the research base will be solar energy. Centrifuging the labs and residential facilities using highpowered motors and apu will keep microgravity problems at bay. Oxygen and inert gas mixture will craft artificialatmosphere and significant pressurization will be done. This artificial atmosphere is to be created only for thesettlement and not outside it. Residential dome-shaped chamber have layers of steel as support material, lead &lunar-soil covering banishes cancer causing high-frequency-radiation in space & anti-magnet deviates em radiations.The materials to be used in manufacturing the settlement will be capable enough to hold down the completestructure and rotating labs and residential facilities. Sewage system will filter out necessary substances like waterand biogas. Water production will be from lunar-ice and recycling various waste materials. Vegetation for o2-CO_2equilibrium & nutritional needs of researchers is fashioned using organic polymer light emitting diodes (plantgrowth-enhancer), increase gas density & pressure (resist plant drying),sawdust & cotton (soil substitute) & inducedgravity. The variety of crops cultivated will be limited. Additional nutritional requirements would be fulfilled bymeans of readymade supplements. Solenoids producing high intensity magnetic field deflects away stream ofenergetic particles emanating from the sun, solar winds. Transportation will be of magneto-plasma-system incoordination with electric field simulation and solar-powered vehicles. Vehicles would have advanced navigationtechnologies for movement on the moon with predefined destination coordinates. The labs, rooms and residentialfacilities, solar panels will be in form of modules carried from the earth and then assembled on moon. The payloadwill be lifted to lower earth orbit by rocket propulsion systems. The payload docks onto the orbital transfer vehiclewhich carries out the further transfer process to the moon. The base would be an extended research location in spaceto carry out independent experiments for comprehensive period of time which are economically viable. The basewill have the privilege of launch pads for interplanetary missions as well.
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