The recent progress in cryogenics technologies, along with the increasing interest in space-based communication, gives a new light to low temperature electronics. The increasing interest in quantum technologies and nanodevices, most of which need low temperatures, are envisaged as the traditional area of interest of the WOLTE community. This workshop series has a consistent policy of holding no parallel sessions. Therefore, its program is comprised of single technical sessions. This gives a unique opportunity to stimulate discussions among all the participants traditionally coming from a variety of semiconductor and superconductorrelated research fields.

  • Low-temperature electronic and memory circuits, components, and devices
  • Low-temperature quantum sensors
  • Novel low-temperature devices including superconducting diodes, nanobridges, cryotrons, spintronic, voltage-controlled devices, charge density wave devices, etc.
  • Advances in modeling of low-temperature devices and circuits
  • Advances in low-temperature circuit technologies including neuromorphic and ballistic circuits
  • Low-temperature electronics for qubit and sensor control and readout
  • Low-temperature Quantum Metrology: electronics and material
  • Low-temperature electronic measurements
  • Artificial Intelligence for Low-Temperature Electronics
  • Materials for low-temperature electronics
  • Low-temperature electronics for low latency quantum error correction
  • Low-temperature electronics for space and high-energy physics applications
  • Hybrid technology integrating different types of low-temperature electronics in a single system
  • Integration of low-temperature electronics with photonic, spin-based quantum systems
  • Advances in cryocooling systems for electronics
  • Advances in cryopackaging including cryosystems for quantum computers at scale, dark matter search systems
  • Advances in flux trapping management, modeling, and shielding techniques
  1. April 30, 2025
    Abstract Submission Deadline (Extended)