I have following question about creation and annihilation operators in QFT: The Klein-Gordon field is introduced as continuous interference of plane waves $\mathrm{e}^{i(\omega_kt-\vec{k}\cdot\vec{x})}$ with positive energy (resp $\mathrm{e}^{-i(\omega_kt-\vec{k}\cdot\vec{x})}$ with negative energy):
$$\varphi(\vec{x},t) = \int\frac{d^Dk}{\sqrt{(2\pi)^D2\omega_k}}\left[a(\vec{k})\mathrm{e}^{-i(\omega_kt-\vec{k}\cdot\vec{x})} + b^\dagger(\vec{k})\mathrm{e}^{i(\omega_kt-\vec{k}\cdot\vec{x})}\right].$$
Then, when we quantizing the coefficients $b_{\mathbf{p}}^{\dagger}$ and $a_{\mathbf{p}}$ we get
$$\varphi(\vec{x},t) = \int\frac{d^Dk}{\sqrt{(2\pi)^D2\omega_k}}\left[\hat{a}(\vec{k})\mathrm{e}^{-i(\omega_kt-\vec{k}\cdot\vec{x})} + \hat{b}^\dagger(\vec{k})\mathrm{e}^{i(\omega_kt-\vec{k}\cdot\vec{x})}\right].$$
with the annihilation operator $\hat{b}_{\mathbf{p}}^{\dagger}$ and creation operator $\hat{a}_{\mathbf{p}}$ ???
Previously I asked a question concerning distinguishing the annihilation and creation operators in this expression here: Creation and Annihilation Operators in QFT
and got indeed good answers.
But the point of this question is the following: Earlier I asked the same question my prof and he gave seemingly a more easy/intuitive answer that $\hat{b}_{\mathbf{p}}^{\dagger}$ must correspond to the exponential with positive energy:
He used the argument that $\hat{b}_{\mathbf{p}}^{\dagger}$ must be annihilation since the inititial state must have positive energy.
Can anybody decrypt how to interpret this argument? I don't understand exactly this line of thought. What is here the initial state? The exponential with positive energy?
Does he mean an evaluation argument like $
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