Source for marine seismic acquisition and method

1 . A method for generating acoustic waves under water, the method comprising: actuating a single piston with an actuator system provided inside an enclosure of a source element, to generate a wave having a first frequency, wherein the actuator system provided inside the enclosure is configured to translate a single shaft connected to the single piston, to generate the wave having the first frequency, and wherein the enclosure has a single opening and the single piston is configured to close the single opening. 2 . The method of claim 1 , further comprising: actuating the single piston with a pressure mechanism to generate a wave having a second frequency, different from the first frequency, wherein the first and second frequencies are generated at the same instant. 3 . The method of claim 1 , wherein the actuator system provided inside the enclosure is configured to translate the single shaft and the single piston, and a guiding system located inside the housing is configured to guide the single shaft. 4 . The method of claim 1 , wherein the actuator system is attached to a wall of the enclosure. 5 . The method of claim 1 , wherein the actuator system is a linear electro-magnetic actuator system. 6 . The method of claim 1 , further comprising: controlling the actuator system and a pressure mechanism with a control system provided on or inside the enclosure. 7 . The method of claim 6 , further comprising: supplying a fluid under pressure at a pressure port to the pressure mechanism; transmitting data through a data port, between the control system and a vessel to which the source element is connected to; and receiving electrical power at an electrical power port for the actuator system. 8 . A seismic vibro-acoustic source element configured to generate acoustic waves, the seismic vibro-acoustic source element comprising: an enclosure having a single opening; a single piston configured to close the single opening; an actuator system provided inside the enclosure and configured to actuate the single piston to generate a wave having a first frequency; and a pressure mechanism attached to the enclosure and configured to control a pressure of a fluid inside the enclosure such that a pressure of the fluid is substantially equal to an ambient pressure of the enclosure. 9 . The seismic vibro-acoustic source element of claim 8 , wherein the pressure mechanism is also configured to actuate the single piston to generate a wave having a second frequency different from the first frequency, wherein the first and second frequencies are simultaneously generated. 10 . The seismic vibro-acoustic source element of claim 8 , further comprising: a guiding system located inside the enclosure for guiding a rod connecting the single piston to the actuator system. 11 . The seismic vibro-acoustic source element of claim 8 , further comprising: a seal located between the single piston and the enclosure for preventing outside water to enter inside the enclosure. 12 . The seismic vibro-acoustic source element of claim 8 , further comprising: a cooling system located inside the housing and configured to transfer heat from the actuator system to the ambient. 13 . The seismic vibro-acoustic source element of claim 8 , wherein the actuator system is attached to a wall of the enclosure. 14 . The seismic vibro-acoustic source element of claim 8 , wherein the single piston directly faces ambient water. 15 . The seismic vibro-acoustic source element of claim 8 , wherein the actuator system is a linear electro-magnetic actuator. 16 . A seismic vibro-acoustic source element configured to generate acoustic waves, the seismic vibro-acoustic source element comprising: an enclosure having a single opening to the ambient; a single piston configured to close the single opening; and an actuator system provided inside the enclosure and configured to linearly move the single piston back and forth, to generate the acoustic waves having a first frequency. 17 . The source element of claim 16 , further comprising: a pressure mechanism attached to the enclosure and configured (1) to control a pressure of a fluid inside the enclosure such that the pressure of the fluid is substantially equal to an ambient pressure of the enclosure and (2) to actuate the single piston to generate another acoustic wave having a second frequency, different from the first frequency, wherein the first and second frequencies are simultaneously generated. 18 . The source element of claim 16 , further comprising: a guiding system located inside the enclosure for guiding a rod connecting the single piston to the actuator system; and a seal located between the single piston and the enclosure for preventing outside water to enter inside the enclosure. 19 . The source element of claim 16 , further comprising: a cooling system located inside the housing and configured to transfer heat from the actuator system to the ambient. 20 . The source element of claim 16 , wherein the actuator system is attached to a wall of the enclosure, the single piston directly faces ambient water, and the actuator system is a linear electro-magnetic actuator.