An article for use in a non-combustible aerosol provision system. The article comprising a mouthpiece comprising a body of material. The body comprises amorphous solid material. Also disclosed is a system comprising such an article and a non-combustible aerosol provision device for heating the aerosol generating material of the article, and a method of manufacturing such an article.

An article for use in a non-combustible aerosol provision system. The article comprising a mouthpiece comprising a body of material. The body comprises amorphous solid material. Also disclosed is a system comprising such an article and a non-combustible aerosol provision device for heating the aerosol generating material of the article, and a method of manufacturing such an article.

A heat insulation mechanism suitable for an electromagnetic induction-type aerosol generation device and an aerosol generation device are provided. The aerosol generation device comprises a magnetic field generator and a susceptor that are inductively coupled; a heat insulator configured to reduce conduction of heat from the susceptor to the outside, the heat insulator comprising a tube wall, and a central region defined by the tube wall, the tube wall containing a metal or an alloy, and the pressure in the central region being configured to be lower than the pressure outside the heat insulator; and a magnetic field shield, configured to isolate the heat insulator from a varying magnetic field, so as to prevent the heat insulator from being penetrated by the varying magnetic field to generate heat. The aerosol generation device can shield the vacuum heat insulator from the magnetic field as far as possible.

A heat insulation mechanism suitable for an electromagnetic induction-type aerosol generation device and an aerosol generation device are provided. The aerosol generation device comprises a magnetic field generator and a susceptor that are inductively coupled; a heat insulator configured to reduce conduction of heat from the susceptor to the outside, the heat insulator comprising a tube wall, and a central region defined by the tube wall, the tube wall containing a metal or an alloy, and the pressure in the central region being configured to be lower than the pressure outside the heat insulator; and a magnetic field shield, configured to isolate the heat insulator from a varying magnetic field, so as to prevent the heat insulator from being penetrated by the varying magnetic field to generate heat. The aerosol generation device can shield the vacuum heat insulator from the magnetic field as far as possible.

Disclosed is a cartridge for use with apparatus for heating smokable material to volatilize at least one component of the smokable material, the cartridge including: a container defining a cavity, and smokable material located in the cavity, wherein the cartridge includes heating material that is heatable by penetration with a varying magnetic field to heat the smokable material. Also disclosed is apparatus for heating smokable material to volatilize at least one component of the smokable material, the apparatus including: an interface for cooperating with an article comprising smokable material, a magnetic field generator for generating a varying magnetic field for penetrating the article when the interface is cooperating with the article, and a device for puncturing the article.

Disclosed is a cartridge for use with apparatus for heating smokable material to volatilize at least one component of the smokable material, the cartridge including: a container defining a cavity, and smokable material located in the cavity, wherein the cartridge includes heating material that is heatable by penetration with a varying magnetic field to heat the smokable material. Also disclosed is apparatus for heating smokable material to volatilize at least one component of the smokable material, the apparatus including: an interface for cooperating with an article comprising smokable material, a magnetic field generator for generating a varying magnetic field for penetrating the article when the interface is cooperating with the article, and a device for puncturing the article.

A method of controlling electric power supplied to a heater includes controlling the electric power supplied to the heater by a first method until a temperature of the heater reaches an upper limit of a pre-heating temperature section; and controlling the electric power supplied to the heater by a second method to a target temperature that is higher than the upper limit, when the temperature of the heater reaches the upper limit.

A radio frequency (RF) to direct current (DC) converter for an aerosol delivery device is provided. The aerosol delivery device includes a power source, and an antenna configured to receive radio-frequency (RF) energy from an external RF transmitter. The aerosol delivery device also includes a power harvesting circuitry configured to receive radio-frequency RF energy from an external RF transmitter, and harvest power from the RF energy to power or charge at least one electronic component of the aerosol delivery device.

An aerosol-forming substrate is provided for use with an inductive heating device, including: a solid material to release volatile compounds to form an aerosol upon heating of the substrate, a first susceptor material to heat the substrate and having a first Curie-temperature and being arranged in thermal proximity of the solid material, and a second susceptor material having a second Curie-temperature and being arranged in thermal proximity of the solid material, the first Curie-temperature being lower than the second Curie-temperature, and the second Curie-temperature defining a maximum heating temperature of the first and second materials, the first and second materials being arranged in heaped formation at different locations within the substrate, one of the first and second susceptor materials being arranged in a central region of the substrate and the respective other one of the first and second susceptor materials is arranged in peripheral regions of the substrate.

An aerosol-forming substrate is provided for use with an inductive heating device, including: a solid material to release volatile compounds to form an aerosol upon heating of the substrate, a first susceptor material to heat the substrate and having a first Curie-temperature and being arranged in thermal proximity of the solid material, and a second susceptor material having a second Curie-temperature and being arranged in thermal proximity of the solid material, the first Curie-temperature being lower than the second Curie-temperature, and the second Curie-temperature defining a maximum heating temperature of the first and second materials, the first and second materials being arranged in heaped formation at different locations within the substrate, one of the first and second susceptor materials being arranged in a central region of the substrate and the respective other one of the first and second susceptor materials is arranged in peripheral regions of the substrate.