An elementary proof of the theorem on the imaginary quadratic fields with class number 1

Abstract

Let D be a square-free integer other than 1. Let K be the quadratic field Q( D). Let δ ∈ \1,2\ with δ=2 if D 1 4. To each prime ideal P in K that splits in K/ Q we associate a binary quadratic form f P and show that when K is imaginary then P is principal if and only if f P represents δ2, and when K is real then P is principal if and only if f P represents δ2. As an application of this result we obtain an elementary proof of the well-known theorem on the imaginary quadratic fields with class number 1. The proof reveals some new information regarding necessary conditions for an imaginary quadratic field to have class number 1 when D 1 4.