What Are the Key Properties and Applications of Hermitian Operators?

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Hermitian operators have specific properties, including that the sum of two Hermitian operators is also Hermitian, while the difference is not guaranteed to be Hermitian unless certain conditions are met. The expression (AB+BA)+ = (AB)+ + (BA)+ holds true due to the properties of Hermitian conjugation. The zero matrix, which is Hermitian, serves as an example of a Hermitian operator with real eigenvalues. It is clarified that AB is Hermitian only if AB equals BA, which is not generally the case. Understanding these properties is crucial for applying Hermitian operators in quantum mechanics and other fields.
danmel413
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Basically I've seen some expressions involving Hermitian Operators that I can't seem to justify, that others on the internet throw around like axiomatic starting points.

(AB+BA)+ = (AB)++(BA)+? Why does this work?

Assuming A&B are hermitian, I get why we can assume A+B is hermitian, but does it follow that A-B is hermitian? Because AB is only hermitian if AB=BA which means AB-BA=0, and I'm fairly sure 0 cannot be a hermitian operator.

Thanks
 
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About the simplest way to see it is to work out (AB)+ + (BA)+ to get B+A+ + A+B+ then involution identity property to further simplify. Also, the zero matrix is its own Hermitian conjugate; has real eigenvalues, all zero.
 
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