A system and method for evaluating a geological formation including subjecting a source-rock sample from the geological formation to atomic force microscopy (AFM) to determine a thermal property or material property of the source-rock sample. The properties determined may include thermal conductivity or material transition temperature.

A system and method for evaluating a geological formation including subjecting a source-rock sample from the geological formation to atomic force microscopy (AFM) to determine a thermal property or material property of the source-rock sample. The properties determined may include thermal conductivity or material transition temperature.

A system and method for evaluating a geological formation including subjecting a source-rock sample from the geological formation to atomic force microscopy (AFM) to determine a thermal property or material property of the source-rock sample. The properties determined may include thermal conductivity or material transition temperature.

A manufacturing method of a probe according to the present embodiment is used to manufacture a probe for a scanning probe microscope. An insulating film is formed on the surface of a probe provided on a base. Metal ions are implanted into the insulating film. An electric field is applied to the insulating film to concentrate the metal ions in the insulating film at a tip of the probe and form a metallic filament in the insulating film.

A manufacturing method of a probe according to the present embodiment is used to manufacture a probe for a scanning probe microscope. An insulating film is formed on the surface of a probe provided on a base. Metal ions are implanted into the insulating film. An electric field is applied to the insulating film to concentrate the metal ions in the insulating film at a tip of the probe and form a metallic filament in the insulating film.

A manufacturing method of a probe according to the present embodiment is used to manufacture a probe for a scanning probe microscope. An insulating film is formed on the surface of a probe provided on a base. Metal ions are implanted into the insulating film. An electric field is applied to the insulating film to concentrate the metal ions in the insulating film at a tip of the probe and form a metallic filament in the insulating film.

A manufacturing method of a probe according to the present embodiment is used to manufacture a probe for a scanning probe microscope. An insulating film is formed on the surface of a probe provided on a base. Metal ions are implanted into the insulating film. An electric field is applied to the insulating film to concentrate the metal ions in the insulating film at a tip of the probe and form a metallic filament in the insulating film.

Various examples are provided related to scanning tunneling thermometers and scanning tunneling microscopy (STM) techniques. In one example, a method includes simultaneously measuring conductance and thermopower of a nanostructure by toggling between: applying a time modulated voltage to a nanostructure disposed on an interconnect structure, the time modulated voltage applied at a probe tip positioned over the nanostructure, while measuring a resulting current at a contact of the interconnect structure; and applying a time modulated temperature signal to the nanostructure at the probe tip, while measuring current through a calibrated thermoresistor in series with the probe tip. In another example, a device includes an interconnect structure with connections to a first reservoir and a second reservoir; and a scanning tunneling probe in contact with a probe reservoir. Electrical measurements are simultaneously obtained for temperature and voltage applied to a nanostructure between the reservoirs.

Various examples are provided related to scanning tunneling thermometers and scanning tunneling microscopy (STM) techniques. In one example, a method includes simultaneously measuring conductance and thermopower of a nanostructure by toggling between: applying a time modulated voltage to a nanostructure disposed on an interconnect structure, the time modulated voltage applied at a probe tip positioned over the nanostructure, while measuring a resulting current at a contact of the interconnect structure; and applying a time modulated temperature signal to the nanostructure at the probe tip, while measuring current through a calibrated thermoresistor in series with the probe tip. In another example, a device includes an interconnect structure with connections to a first reservoir and a second reservoir; and a scanning tunneling probe in contact with a probe reservoir. Electrical measurements are simultaneously obtained for temperature and voltage applied to a nanostructure between the reservoirs.

A system and method for evaluating a geological formation including subjecting a source-rock sample from the geological formation to atomic force microscopy (AFM) to determine a thermal property or material property of the source-rock sample. The properties determined may include thermal conductivity or material transition temperature.