[[math]] \begin{eqnarray*} \mathbf{X}^{\top} \mathbf{X} & = & \left( \begin{array}{ll} 1 & \rho \\ \rho & 1 \end{array} \right) \end{eqnarray*} [[/math]]

[[math]] \begin{eqnarray*} \hat{\beta}_j (\lambda_1) & = & \left\{ \begin{array}{ll} \mbox{sgn}(\hat{\beta}_j) [| \hat{\beta}_j | - \tfrac{1}{2} \lambda_1 (1+\rho)^{-1}]_+ & \mbox{ if } \, \mbox{sgn}[\hat{\beta}_1 (\lambda_1)] = \mbox{sgn}[\hat{\beta}_2 (\lambda_1)], \\ & \hat{\beta}_j (\lambda_1) \not= 0 \not= \hat{\beta}_2 (\lambda_1), \\ \mbox{sgn}(\hat{\beta}_j) [| \hat{\beta}_j | - \tfrac{1}{2} \lambda_1 (1-\rho)^{-1}]_+ & \mbox{ if } \, \mbox{sgn}[\hat{\beta}_1 (\lambda_1)] \not= \mbox{sgn}[\hat{\beta}_2 (\lambda_1)], \\ & \hat{\beta}_1 (\lambda_1) \not= 0 \not= \hat{\beta}_2 (\lambda_1), \\ \left\{ \begin{array}{lcl} 0 & \mbox{ if } & j \not= \arg \max_{j'} \{ | \hat{\beta}_{j'}^{\mbox{{\tiny (ols)}}} | \} \\ \mbox{sgn}(\tilde{\beta}_j) ( | \tilde{\beta}_j | - \tfrac{1}{2} \lambda_1)_+ & \mbox{ if } & j = \arg \max_{j'} \{ | \hat{\beta}_{j'}^{\mbox{{\tiny (ols)}}} | \} \end{array} \right. & \mbox{ otherwise, } \end{array} \right. \end{eqnarray*} [[/math]]