Material Science

The investigation and characterization of matter at low temperatures is fundamental for the development of novel functional materials. kiutra offers versatile sub-Kelvin research cryostats and add-ons for low-temperature measurements of material properties. Typical applications include

  • Topological Insulators
  • Conventional and Unconventional Superconductors
  • Disordered Quantum System
  • Frustrated Magnets
  • Topological Phenomena
  • Nanomaterials
  • Low-dimensional systems
  • Quantum-Dots, Quantum-Wires
  • Molecular Electronics and Photonics
  • Skyrmions
  • Semi-Metals and Weyl-Metals
  • Graphene
  • Multiferroics
  • Topological Insulators
  • Conventional and Unconventional Superconductors
  • Disordered Quantum System
  • Frustrated Magnets
  • Quantum-Dots, Quantum-Wires
  • Molecular Electronics and Photonics
  • Multiferroics
  • Topological Phenomena
  • Nanomaterials
  • Low-dimensional systems
  • Skyrmions
  • Semi-Metals and Weyl-Metals
  • Graphene
  • Cold Gases, Superfluids
  • Topological Insulators
  • Conventional and Unconventional Superconductors
  • Disordered Quantum System
  • Frustrated Magnets
  • Quantum-Dots, Quantum-Wires
  • Molecular Electronics and Photonics
  • Multiferroics
  • Topological Phenomena
  • Nanomaterials
  • Low-dimensional systems
  • Skyrmions
  • Semi-Metals and Weyl-Metals
  • Graphene
  • Cold Gases, Superfluids

Cryostats for Materials Investigation

L-Type Cryostats

  • Large temperature range (300 K - 100 mK)
  • Rapid sample cooldown in less than 3 hours
  • Excellent temperature stability (ΔT/T ≤ 0.2 %)
  • 300 K - 4 K
  • < 0.1 K
  • 300 K - 0.3 K
  • < 0.1 K
  • 300 K - 1.5 K
  • < 0.1 K
  • 300 K - 0.5 K
  • < 0.08 K