21
" Christofilos’s theoretical Astrodome-like shield was the hoped-for result of exploding a large number of nuclear weapons in space as a means of defending against incoming Soviet ICBMs. By Christofilos’s count, this likely meant “thousands per year, in the lower reaches of the atmosphere.” These explosions, he said, would produce “huge quantities of radioactive atoms, and these in turn would emit high-energy electrons (beta particles) and inject them into a region of space where the earth’s magnetic fields would trap and hold on them for a long time.” Christofilos figured that this electromagnetic field could last months, or perhaps longer, and that “the trapped electrons would cause severe radiation—and even heat damage—to anything, man or nuclear weapon, that tried to fly through the region.” In short, the idea was that the arming and firing mechanisms on the incoming Soviet ICBMs would be fried. "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency
27
" Castle Bravo had been built according to the “Teller-Ulam” scheme—named for its co-designers, Edward Teller and Stanislaw Ulam—which meant, unlike with the far less powerful atomic bomb, this hydrogen bomb had been designed to hold itself together for an extra hundred-millionth of a second, thereby allowing its hydrogen isotopes to fuse and create a chain reaction of nuclear energy, called fusion, producing a potentially infinite amount of power, or yield. “What this meant,” Freedman explains, was that there was “a one-in-one-million chance that, given how much hydrogen [is] in the earth’s atmosphere, when Castle Bravo exploded, it could catch the earth’s atmosphere on fire. Some scientists were extremely nervous. Some made bets about the end of the world. "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency
28
" the group listed dangerous insufficiencies that DARPA had to shore up at once: “Inadequate nuclear, BW, CW [biological weapon, chemical weapon] detection; inadequate underground bunker detection; limited secure, real-time command and control to lower-echelon units [i.e., getting the information to soldiers on the ground]; limited ISR [intelligence, surveillance, and reconnaissance] and dissemination; inadequate mine, booby trap and explosive detection capabilities; inadequate non-lethal capabilities [i.e., incapacitating agents]; inadequate modeling/simulation for training, rehearsal and operations; no voice recognition or language translation; inadequate ability to deal with sniper attacks. "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency
31
" Scalable Social Network Analysis. The SSNA would monitor telephone calls, conference calls, and ATM withdrawals, but it also sought to develop a far more invasive surveillance technology, one that could “capture human activities in surveillance environments.” The Activity Recognition and Monitoring program, or ARM, was modeled after England’s CCTV camera. Surveillance cameras would be set up across the nation, and through the ARM program, they would capture images of people as they went about their daily lives, then save these images to massive data storage banks for computers to examine. Using state-of-the-art facial recognition software, ARM would seek to identify who was behaving outside the computer’s pre-programmed threshold for “ordinary.” The parameters for “ordinary” remain classified. "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency
35
" Brown believed that technological superiority was imperative to military dominance, and he also believed that advancing science was the key to economic prosperity. “Harold Brown turned technology leadership into a national strategy,” remarks DARPA historian Richard Van Atta. Despite rising inflation and unemployment, DARPA’s budget was doubled. Microprocessing technologies were making stunning advances. High-speed communication networks and Global Positioning System technologies were accelerating at whirlwind speeds. DARPA’s highly classified, high-risk, high-payoff programs, including stealth, advanced sensors, laser-guided munitions, and drones, were being pursued, in the black. Soon, Assault Breaker technology would be battle ready. From all of this work, entire new industries were forming. "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency
38
" By the time of the Cuban Missile Crisis, Eisenhower’s test ban had failed, and the United States and the Soviet Union had both returned to nuclear weapons testing. Twice during the height of the Cuban Missile Crisis, on October 20 and October 26, 1962, the United States detonated two nuclear weapons—code-named Checkmate and Bluegill Triple Prime—in space. These tests, which sought to advance knowledge in ARPA’s pursuit of the Christofilos effect, are on the record and are known. What is not known outside Defense Department circles is that in response, on October 22 and October 28, 1962, the Soviets also detonated two nuclear weapons in space, also in pursuit of the Christofilos effect. In recently declassified film footage of an emergency meeting at the White House, Secretary of Defense McNamara can be heard discussing one of these two Soviet nuclear bomb tests with the president and his closest advisors. “The Soviets fired three eleven-hundred-mile missiles yesterday at Kapustin Yar, "
― Annie Jacobsen , The Pentagon's Brain: An Uncensored History of DARPA, America's Top-Secret Military Research Agency