We propose a concept of thermonuclear fusion reactor is which the plasma pressure is balanced by direct gas‐wall interaction in a high‐pressure vessel. The energy confinement is achieved by means of the self‐contained toroidal magnetic configuration sustained by an external current drive or charged fusion products. This field structure causes the plasma pressure to decrease toward the inside of the discharge and thus it should be magnetohydrodynamically stable. The maximum size, temperature and density profiles of the reactor are estimated. An important feature of confinement physics is the thin layer of cold gas at the wall and the adjacent transitional region of dense arc‐like plasma. The burning condition is determined by the balance between these normagnetized layers and the current‐carrying plasma. We suggest several questions for future investigation, such as the thermal stability of the transition layer and the possibility of an effective heating and current drive behind the dense edge plasma. The ...