Aerosol delivery device and a related method

The invention claimed is: 1. An aerosol delivery device, comprising: a heating chamber having an aerosol precursor composition disposed therein; a microwave radiation emitting device comprising a magnetron extending at least partially about and operably engaged with the heating chamber, the magnetron being configured to emit microwave radiation to heat the aerosol precursor composition therein with the microwave radiation, to form an aerosol from the aerosol precursor composition; and a housing having an outlet port and being in fluid communication with the heating chamber, the heating chamber being responsive to a suction applied to the outlet port for the aerosol to be drawn through the outlet port outwardly from the housing, wherein the outlet port includes an airflow shielding element configured to contain the microwave radiation within the heating chamber. 2. The device of claim 1 , further comprising an aerosol precursor delivery arrangement operably engaged with the heating chamber and configured to direct the aerosol precursor composition to the heating chamber from a reservoir configured to contain the aerosol precursor composition therein and in fluid communication with the aerosol precursor delivery arrangement. 3. A method of making an aerosol delivery device, the method comprising: operably engaging a microwave radiation emitting device with a heating chamber configured to receive an aerosol precursor composition therein, the microwave radiation emitting device comprising a magnetron extending at least partially about the heating chamber and being configured to heat the aerosol precursor composition with microwave radiation emitted thereby to form an aerosol from the aerosol precursor composition; and engaging the heating chamber with a housing having an outlet port such that the outlet port is in fluid communication with the heating chamber, and such that the heating chamber is responsive to a suction applied to the outlet port for the aerosol to be drawn through the outlet port outwardly from the housing, wherein the outlet port includes an airflow shielding element configured to contain the microwave radiation within the heating chamber. 4. The device of claim 1 , wherein the magnetron is disposed within an enclosure configured to substantially surround the heating chamber. 5. The device of claim 4 , further comprising two or more reservoirs, wherein each reservoir is configured to contain a distinct aerosol precursor composition therein, wherein each of the two or more reservoirs is in fluid communication with the aerosol precursor delivery arrangement and co-operable therewith for the aerosol precursor delivery arrangement to direct any of the distinct aerosol precursor compositions from the respective one of the two or more reservoirs to the heating chamber. 6. The device of claim 5 , further comprising an airflow channel defined within the housing or the enclosure, and configured to allow airflow between the heating chamber and ambient air external to the housing or the enclosure. 7. The device of claim 6 , wherein the airflow channel includes an airflow shielding element configured to cooperate with the enclosure to contain the microwave radiation within the enclosure. 8. The device of claim 1 , comprising a hose member having engaging proximal end engaged with the outlet port and an opposing distal end engaged with a mouthpiece element, the mouthpiece element and the hose member being in fluid communication with the heating chamber via the outlet port so as to receive the aerosol therefrom in response to suction applied to the mouthpiece element. 9. The device of claim 1 , comprising a controller element in communication between the microwave radiation emitting device and a sensing element in communication with the aerosol precursor composition within the heating chamber, the sensing element being configured to sense a temperature of the aerosol precursor composition within the heating chamber, the controller element being responsive to the sensed temperature to regulate the microwave radiation output by the magnetron to heat the aerosol precursor composition within the heating chamber to a maximum desired temperature. 10. The device of claim 1 , wherein the aerosol precursor composition is selected from the group consisting of a liquid, a gel, a solid, a capsule, a colloid, a suspension, a botanical, and a combination thereof. 11. The device of claim 10 , wherein one component of the aerosol precursor composition is configured to prevent superheating of the aerosol precursor composition. 12. The device of claim 1 , comprising a wick engaged with the heating chamber, the wick being in communication with the aerosol precursor composition, wherein the magnetron is configured to heat the wick such that an amount of the aerosol formed thereby is proportional to the an amount of the aerosol precursor composition wicked by the wick. 13. The device of claim 1 , wherein the heating chamber comprises a first heating sub-chamber and a second heating sub-chamber, one of the first and second heating sub-chambers having a greater capacity for the aerosol precursor composition than the other, and wherein the first and second heating sub-chambers are in fluid communication with the outlet port via a selector element, the selector element being responsive to the suction applied through the outlet port to direct the aerosol to the outlet port from the selected one of the first and second heating sub-chambers, an amount of the aerosol corresponding to a magnitude of the suction. 14. The device of claim 1 , comprising an aerosol precursor processing unit in fluid communication with the heating chamber and configured to pre-heat the aerosol precursor composition to a pre-heat temperature, the pre-heat temperature being less than a maximum desired temperature for forming the aerosol from the aerosol precursor composition, prior to the pre-heated aerosol precursor composition being directed to the heating chamber. 15. The device of claim 14 , wherein the aerosol precursor processing unit comprises a heating element or an aerosol forming element configured to interact with the aerosol precursor composition. 16. The device of claim 1 , comprising an aerosol precursor processing unit in communication with the heating chamber and configured to pre-heat a substrate material having the aerosol precursor composition associated therewith to a pre-heat temperature, the pre-heat temperature being less than a maximum desired temperature for forming the aerosol from the aerosol precursor composition, prior to the pre-heated substrate material being directed to the heating chamber. 17. The device of claim 1 , comprising an aerosol precursor processing unit in communication with the heating chamber and configured to pre-heat a membrane comprised of the aerosol precursor composition to a pre-heat temperature, the pre-heat temperature being less than a maximum desired temperature for forming the aerosol from the aerosol precursor composition, prior to the pre-heated membrane being directed to the heating chamber. 18. The method of claim 3 , further comprising engaging an aerosol precursor processing unit in fluid communication with the heating chamber, the aerosol precursor processing unit being configured to pre-heat a substrate material having the aerosol precursor composition associated therewith to a pre-heat temperature, the pre-heat temperature being less than a maximum desired temperature for forming the aerosol from the aerosol precursor composition, prior to the pre-heated substra