Let p be a prime, and g(p) denote the least positive primitive root of the prime p. Also let v1(n) denote the numbers of different prime factors of n and m = v1(p—1). Under the truth of the grand Riemann hypoth...Let p be a prime, and g(p) denote the least positive primitive root of the prime p. Also let v1(n) denote the numbers of different prime factors of n and m = v1(p—1). Under the truth of the grand Riemann hypothesis Ankeny (Ann. math. 55 (1952)) proved展开更多
文摘Let p be a prime, and g(p) denote the least positive primitive root of the prime p. Also let v1(n) denote the numbers of different prime factors of n and m = v1(p—1). Under the truth of the grand Riemann hypothesis Ankeny (Ann. math. 55 (1952)) proved
