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\begin{aligned} {TE}_{pop} & = \frac{E [Y_{1 M_{1}} | μ_{c}] / (1 - E [Y_{1 M_{1}} | μ_{c}])}{E [Y_{0 M_{0}} | μ_{c}] / (1 - E [Y_{0 M_{0}} | μ_{c}])} \\ {CDE}_{pop} (m) & = \frac{E [Y_{1 m} | μ_{c}] / (1 - E [Y_{1 m} | μ_{c}])}{E [Y_{0 m} | μ_{c}] / (1 - E [Y_{0 m} | μ_{c}])} \\ {NDE}_{pop} & = \frac{E [Y_{1 M_{0}} | μ_{c}] / (1 - E [Y_{1 M_{0}} | μ_{c}])}{E [Y_{0 M_{0}} | μ_{c}] / (1 - E [Y_{0 M_{0}} | μ_{c}])} \\ {NIE}_{pop} & = \frac{E [Y_{1 M_{1}} | μ_{c}] / (1 - E [Y_{1 M_{1}} | μ_{c}])}{E [Y_{1 M_{0}} | μ_{c}] / (1 - E [Y_{1 M_{0}} | μ_{c}])} \end{aligned}

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\begin{align*} \mbox{TE}_{\mbox{pop}} & = \frac{\mc{E}[Y_{1M_1}~ |~ \mu _ c]/(1-\mc{E}[Y_{1M_1}~ |~ \mu _ c])}{\mc{E}[Y_{0M_0}~ |~ \mu _ c]/(1-\mc{E}[Y_{0M_0}~ |~ \mu _ c])}\\ \mbox{CDE}_{\mbox{pop}}(m) & = \frac{\mc{E}[Y_{1m}~ |~ \mu _ c]/(1-\mc{E}[Y_{1m}~ |~ \mu _ c])}{\mc{E}[Y_{0m}~ |~ \mu _ c]/(1-\mc{E}[Y_{0m}~ |~ \mu _ c])} \\ \mbox{NDE}_{\mbox{pop}} & = \frac{\mc{E}[Y_{1M_0}~ |~ \mu _ c]/(1-\mc{E}[Y_{1M_0}~ |~ \mu _ c])}{\mc{E}[Y_{0M_0}~ |~ \mu _ c]/(1-\mc{E}[Y_{0M_0}~ |~ \mu _ c])}\\ \mbox{NIE}_{\mbox{pop}} & = \frac{\mc{E}[Y_{1M_1}~ |~ \mu _ c]/(1-\mc{E}[Y_{1M_1}~ |~ \mu _ c])}{\mc{E}[Y_{1M_0}~ |~ \mu _ c]/(1-\mc{E}[Y_{1M_0}~ |~ \mu _ c])} \end{align*}