To explore how rigid rotation affects the thermodynamic properties of free relativistic bosons, we employ the standard imaginary time formalism of thermal field theory to calculate the free propagator of complex scalar fields under rotation. We introduce the corresponding partition function and explicitly compute it by expanding the modes in cylindrical coordinates. The resulting propagator is in full agreement with similar findings in the existing literature.
Siri,E. and Sadooghi,N. (2024). Boson propagator under rigid rotation. Transactions in Theoretical and Mathematical Physics, 1(4), 105-109. doi: 10.30511/ttmp.2024.2037649.1038
MLA
Siri,E. , and Sadooghi,N. . "Boson propagator under rigid rotation", Transactions in Theoretical and Mathematical Physics, 1, 4, 2024, 105-109. doi: 10.30511/ttmp.2024.2037649.1038
HARVARD
Siri E., Sadooghi N. (2024). 'Boson propagator under rigid rotation', Transactions in Theoretical and Mathematical Physics, 1(4), pp. 105-109. doi: 10.30511/ttmp.2024.2037649.1038
CHICAGO
E. Siri and N. Sadooghi, "Boson propagator under rigid rotation," Transactions in Theoretical and Mathematical Physics, 1 4 (2024): 105-109, doi: 10.30511/ttmp.2024.2037649.1038
VANCOUVER
Siri E., Sadooghi N. Boson propagator under rigid rotation. TTMP, 2024; 1(4): 105-109. doi: 10.30511/ttmp.2024.2037649.1038
