- Conference date: 20–24 July 2009
- Location: Stanford (California)
Microwave Kinetic Inductance Detectors, or MKIDs, are non‐equilibrium superconducting detectors made out of high quality factor superconducting microwave resonant circuits. Their primary advantage over other low temperature detector technologies is their built‐in frequency domain multiplexing at GHz frequencies, allowing thousands of detectors to be read out through a single transmission line. MKIDs are now celebrating their tenth birthday, so this review aims to sum up what has been learned over the first decade and explore the diversity of current MKID projects.
- Microwave detectors
- Low temperature detectors
- Superconducting detectors
- Microwave circuits
Daniel Baumann, Mark G. Jackson, Peter Adshead, Alexandre Amblard, Amjad Ashoorioon, Nicola Bartolo, Rachel Bean, Maria Beltrán, Francesco de Bernardis, Simeon Bird, Xingang Chen, Daniel J. H. Chung, Loris Colombo, Asantha Cooray, Paolo Creminelli, Scott Dodelson, Joanna Dunkley, Cora Dvorkin, Richard Easther, Fabio Finelli, Raphael Flauger, Mark P. Hertzberg, Katherine Jones‐Smith, Shamit Kachru, Kenji Kadota, Justin Khoury, William H. Kinney, Eiichiro Komatsu, Lawrence M. Krauss, Julien Lesgourgues, Andrew Liddle, Michele Liguori, Eugene Lim, Andrei Linde, Sabino Matarrese, Harsh Mathur, Liam McAllister, Alessandro Melchiorri, Alberto Nicolis, Luca Pagano, Hiranya V. Peiris, Marco Peloso, Levon Pogosian, Elena Pierpaoli, Antonio Riotto, Uroš Seljak, Leonardo Senatore, Sarah Shandera, Eva Silverstein, Tristan Smith, Pascal Vaudrevange, Licia Verde, Ben Wandelt, David Wands, Scott Watson, Mark Wyman, Amit Yadav, Wessel Valkenburg and Matias Zaldarriaga
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