More Like this

1. Simulation of cryogenic buffer gas beams

   https://doi.org/10.1103/PhysRevResearch.3.023018  

   Takahashi, Yuiki; Shlivko, David; Woolls, Gabriel; Hutzler, Nicholas R. (April 2021, Physical Review Research)

   null (Ed.)
2. Cryogenic electron microscopy for quantum science

   https://doi.org/10.1557/mrs.2019.288  

   Minor, Andrew M.; Denes, Peter; Muller, David A. (December 2019, MRS Bulletin)

   Electron microscopy is uniquely suited for atomic-resolution imaging of heterogeneous and complex materials, where composition, physical, and electronic structure need to be analyzed simultaneously. Historically, the technique has demonstrated optimal performance at room temperature, since practical aspects such as vibration, drift, and contamination limit exploration at extreme temperature regimes. Conversely, quantum materials that exhibit exotic physical properties directly tied to the quantum mechanical nature of electrons are best studied (and often only exist) at extremely low temperatures. As a result, emergent phenomena, such as superconductivity, are typically studied using scanning probe-based techniques that can provide exquisite structural and electronic characterization, but are necessarily limited to surfaces. In this article, we focus not on the various methods that have been used to examine quantum materials at extremely low temperatures, but on what could be accomplished in the field of quantum materials if the power of electron microscopy to provide structural analysis at the atomic scale was extended to extremely low temperatures. 

   more » « less
3. Cryogenic packaging of an optomechanical crystal

   https://doi.org/10.1364/OE.27.028782  

   McKenna, Timothy P.; Patel, Rishi N.; Witmer, Jeremy D.; Van Laer, Raphaël; Valery, Joseph A.; Safavi-Naeini, Amir H. (September 2019, Optics Express)
4. Cryogenic ridges: a new speleothem type

   https://doi.org/10.5038/1827-806X.52.1.2416  

   Onac, Bogdan P; Cleary, Daniel; Dumitru, Oana; Polyak, Victor; Povara, Ioan; Wynn, Jonathan; Asmerom, Yemane (January 2023, International Journal of Speleology)

   Cryogenic cave carbonates have been described from several formerly or presently glaciated karst caves. In most of these occurrences, they precipitated as loose grains or aggregates with various morphologies and sizes. Here, we report on a new speleothem type (cryogenic ridges) identified in Sohodoalele Mici Cave (SW Romania) within a large chamber near the entrance shaft. This study was motivated by the presence of a network of calcite ridges over the stalactites’ surface and by the observation that during winter, these speleothems are covered by a thin ice layer. The higher δ18O (−3.5 to –1‰) and δ13C (0 to 7‰) values found in the calcite ridges relative to δ18O (–7.5 to –4‰) and δ13C (–9 to –2‰) values of calcite from the inner stalactite indicate that the ridges are of cryogenic origin and formed during relatively rapid carbonate precipitation associated with evaporative cooling and freezing of the water. Four U-series ages suggest that the stalactites with ridges formed during cold winters of the Holocene, when cave air temperatures dropped below freezing. 

   more » « less
5. Automated Noise-Parameter Measurements of Cryogenic LNAs

   https://doi.org/10.1109/ARFTG52261.2021.9639993  

   Sheldon, Alexander; Belostotski, Leonid; Mani, Hamdi; Groppi, Christopher E.; Warnick, Karl F. (June 2021, 2021 97th ARFTG Microwave Measurement Conference (ARFTG))