Aerosol generating component for an electronic smoking device, electronic smoking device and method for generating an inhalant

The invention claimed is: 1. An aerosol generating component for an electronic smoking device comprising: an atomizer adapted to consecutively generate two aerosols with different particle sizes, wherein the aerosol generating component is adapted to change the amount of a diluting gas led to the atomizer from a first predetermined amount to a second predetermined amount in order generate the two aerosols with different particle sizes, and wherein the aerosol generating component comprises two ducts that transport the diluting gas, the two ducts having different inner diameters, the ducts being alternatingly connectable to the atomizer. 2. The aerosol generating component according to claim 1 , wherein the atomizer comprises one atomizer element that is adapted to consecutively generate two aerosols with different particle sizes. 3. The aerosol generating component according to claim 1 , wherein the aerosol generating component is adapted to consecutively generate two aerosols with different particle sizes within one atomization cycle. 4. The aerosol generating component according to claim 1 , wherein the aerosol generating component is adapted to change the rate of atomization of a liquid from which the aerosol is formed from a first predetermined rate to a second predetermined rate in order generate two aerosols with different particle sizes. 5. The aerosol generating component according to claim 4 , wherein the aerosol generating component is adapted to change operation energy provided to the atomizer from a first predetermined energy to a second predetermined energy in order to change the rate of atomization, wherein higher energy leads to higher rate of atomization and the larger particle size. 6. The aerosol generating component according to claim 4 , wherein the aerosol generating component is adapted to change the mass of liquid to be atomized and to be fed to the atomizer from a first predetermined mass to a second predetermined mass in order to change the rate of atomization. 7. The aerosol generating component according to claim 1 , wherein the aerosol generating component is adapted to change a pressure difference that causes the diluting gas to flow to the atomizer from a first predetermined difference to a second predetermined difference. 8. An electronic smoking device comprising an aerosol generating component according to claim 1 . 9. The electronic smoking device according to claim 8 , wherein the aerosol generating component is adapted to consecutively generate two aerosols with different particle sizes within one puff. 10. The aerosol generating component of claim 1 wherein each of the two ducts has a fixed inner diameter. 11. A method for providing an inhalant to a user, consecutively generating wherein a first aerosol with a first particle size and a second aerosol with a second particle size, the first particle size differing from the second particle size; diluting the aerosols with a diluting gas to form the inhalant and the amount of the diluting gas used to dilute the aerosols is changed from a first predetermined amount to a second predetermined amount to generate the first and second particle sizes; and changing an inner diameter of a duct transporting the diluting gas from a first predetermined diameter to a second predetermined diameter in order to change the amount of gas used to dilute the aerosol. 12. The method according to claim 11 , wherein the rate of atomization is changed from a first predetermined rate to a second predetermined rate in order to generate the differently sized particles. 13. The method according to claim 11 , wherein the power used for atomizing is changed from a first predetermined power to a second predetermined power in order to generate the differently sized particles, wherein higher power leads to higher rate of atomization and larger particle size. 14. The method according to claim 11 , wherein a pressure difference transporting the diluting gas is changed from a first predetermined pressure difference to a second predetermined pressure difference in order to change the amount of gas used to dilute the aerosol. 15. The method according to claim 11 , wherein both of the aerosols are generated with an aerosol generating component comprising an atomizer adapted to consecutively generate two aerosols with different particle sizes, wherein the aerosol generating component is adapted to change the amount of a diluting gas led to the atomizer from a first predetermined amount to a second predetermined amount in order to generate two aerosols with different particle sizes, and wherein the aerosol generating component comprises two ducts that transport the diluting gas, the two ducts having a different inner diameters, the ducts being alternatingly connectable to the atomizer. 16. The method according to claim 11 , wherein both of the aerosols are generated with an electronic smoking device having an atomizer adapted to consecutively generate two aerosols with different particle sizes, wherein the aerosol generating component is adapted to change the amount of a diluting gas led to the atomizer from a first predetermined amount to a second predetermined amount in order to generate two aerosols with different particle sizes, and wherein the aerosol generating component comprises two ducts that transport the diluting gas, the two ducts having different inner diameters, the ducts being alternatingly connectable to the atomizer.