From titanium alloys and composite materials to computational fluid dynamics, Falcons get fuel efficiency, performance and agility like nothing else in their class. Without giving an inch on wide-body comfort and style. The Architecture A Falcon's superstructure uses aerospace materials - titanium, magnesium, composite laminates, hybrids and alloys - skillfully incorporated to be lighter-yet-stronger and longer-lasting than ordinary business jets. And extract every extra mile of fuel efficiency - without giving up an ounce of tensile strength. The Power To achieve the industry's most efficient thrust-to-weight ratios - and satisfy some of the world's most sophisticated business jet owners - Falcon engineers work closely with engine manufacturers. And each set of power plants is integrated into the aircraft's design to optimize thrust and minimize drag - while maintaining our reputation for "the quietest cabin in the sky." The Aerodynamics The exterior of a Falcon, with its trademark gleaming-smooth skin, is designed to surf the air more efficiently at every altitude than other business jets - the result of our 80-year obsession with aerodynamics and 40-year experience in aerospace. Falcon's unique wing design allows it to land slower than other planes in its class - giving it access to hundreds more small airports than other planes its size. And Falcon avionics - our EASy Flight Deck is acknowledged as the most advanced in the industry - are the best organized and fully computerized for efficiency and above all, safety. The People In today's competitive world, a job at Dassault is a prize coveted by some of the most talented engineers, designers, software engineers, pilots and technicians in the world. Because the same people who design, build and test our legendary Rafale and Mirage fighters - planes that do business at Mach 2 and nine Gs - do the very same work for our Falcons.