Recently, much emphasis has been given to genuinely quantum reservoirs
generically called fermionic reservoirs. These reservoirs are characterized by
having finite levels, as opposed to bosonic reservoirs, which have infinite
levels that can be populated via an increase in temperature. Given this, some
studies are being carried out to explore the advantages of using quantum
reservoirs, in particular in the operation of heat machines. In this work, we
make a comparative study of a thermal refrigerator operating in the presence of
either a bosonic or a fermionic reservoir, and we show that fermionic
reservoirs have advantages over bosonic ones. We propose an explanation for the
origin of these advantages by analyzing both the asymptotic behavior of the
states of the qubits and the exchange rates between these qubits and their
respective reservoirs.Comment: 5 pages, 2 figure