## Highlights

The Method for the Determination of Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.Thermal Diffusivity in the Thickness Range of Nanometer

Time DomainA time domain analysis is based on changes in physical signals related to time. A time-domain graph shows how a signal changes over time. In the case of thermoreflectance or the laser flash method, the detector signal (voltage change) is recorded – at a minimum – over the time range between the energy input and the signal maximum (e.g., RF mode) or as a function of the expected heat diffusion time (e.g., FF mode).Time Domain ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.Thermoreflectance Methods

The Method for the Determination of Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.Thermal Diffusivity in the Thickness Range of Nanometer

With the significant progress in the design of electronic devices and the associated need for an efficient thermal management, accurate Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.thermal diffusivity / Thermal ConductivityThermal conductivity (λ with the unit W/(m•K)) describes the transport of energy – in the form of heat – through a body of mass as the result of a temperature gradient (see fig. 1). According to the second law of thermodynamics, heat always flows in the direction of the lower temperature.thermal conductivity measurements in the nanometer range are more than ever crucial.

The National Institute of Advanced Industrial Science and Technology (AIST), Japan, already responded to industrial requirements with the development of a “pulsed light heating ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance method” in the early 90’s. PicoTherm Corporation was established in 2008 with the launch of a nano-second ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance apparatus “NanoTR” and a pico-second ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance apparatus “PicoTR”, which allows for absolute measurements of the Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.thermal diffusivity of thin films in a thickness range of several 10 μm down into the nanometer range.

In October 2020, PicoTherm joined the NETZSCH Group as a subsidiary of NETZSCH Japan. In combination with our LFA systems, NETZSCH can now offer the solution for thin films in the nanometer range up to bulk materials in the range of mm.

With the significant progress in the design of electronic devices and the associated need for an efficient thermal management, accurate Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.thermal diffusivity / Thermal ConductivityThermal conductivity (λ with the unit W/(m•K)) describes the transport of energy – in the form of heat – through a body of mass as the result of a temperature gradient (see fig. 1). According to the second law of thermodynamics, heat always flows in the direction of the lower temperature.thermal conductivity measurements in the nanometer range are more than ever crucial.

The National Institute of Advanced Industrial Science and Technology (AIST), Japan, already responded to industrial requirements with the development of a “pulsed light heating ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance method” in the early 90’s. PicoTherm Corporation was established in 2008 with the launch of a nano-second ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance apparatus “NanoTR” and a pico-second ThermoreflectanceThermoreflectance is a method for determining the thermal diffusivity and thermal conductivity of thin films with thicknesses in the nanometer range.thermoreflectance apparatus “PicoTR”, which allows for absolute measurements of the Thermal DiffusivityThermal diffusivity (a with the unit mm2/s) is a material-specific property for characterizing unsteady heat conduction. This value describes how quickly a material reacts to a change in temperature.thermal diffusivity of thin films in a thickness range of several 10 μm down into the nanometer range.

With the PicoTR, laser pulses (pump laser) with a pulse width of 0.5 ps and a time period of 50 ns can be applied to the sample. The temperature response time is also detected by the sample laser.

PicoTR allows the user to easily switch between RT and FF mode.

PicoTR complies with the Japanese industry standards JIS R 1689 and JIS R 1690.

## Software

In-situ display and analyzing 100,000 shots

The state-of-the-art measurement/analysis software of NanoTR/PicoTR has an easy-to-handle user interface which allows for a precise determination of the thermal properties of thin films. The laser beam focusing can be adjusted by the software and CCD picture can be obtained.

NanoTR/PicoTR software runs under Microsoft Windows.

The plot shows that in 1 μs measurement time one measurement curve can be obtained.

Obtaining results in minutes

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