How Clifford algebra can help understand second quantization of fermion and boson fields (2210.06256v1)

Abstract: In the review article in Progress in Particle and Nuclear Physics (vol.121(2021) 103890)) the authors present the achievements so far of the spin-charge-family theory, which offers the explanation for all the so far observed properties of elementary fermion and boson fields, if the space-time is higher than d=(3+1), it must be $d\ge (13+1)$. Fermions interact with gravity only. Ref. PPNP (vol.121(2021) 103890)) presents, in addition to a rather detailed review of all the achievements of this theory so far, also an explanation for the postulates of the second quantization for fermionic fields: The internal space of fermions described with "basis vectors" represented by the Clifford odd objects manifests all the properties of fermion fields, including the anticommutativity of their creation and annihilation operators. This paper shows that even Clifford algebra objects provide a description of the internal space of boson fields manifesting all known properties of boson fields, explaining as well the reasons for the second quantization postulates for boson fields. Properties of fermion and boson fields with the internal spaces described by the Clifford odd and Clifford even objects are demonstrated on the toy model with $d=(5+1)$.