{"version":"1.0","provider_name":"ASC 2022","provider_url":"https:\/\/www.appliedsuperconductivity.org\/asc2022","author_name":"Brion","author_url":"https:\/\/www.appliedsuperconductivity.org\/asc2022\/author\/bjacobscentennialconferences-com\/","title":"The Many Ways Sensitive Detectors of Radiation and Particles Use Superconductivity (and Why) - ASC 2022","type":"rich","width":600,"height":338,"html":"<blockquote class=\"wp-embedded-content\" data-secret=\"BK0sYE9JcC\"><a href=\"https:\/\/www.appliedsuperconductivity.org\/asc2022\/schedule\/the-many-ways-sensitive-radiation-and-particle-detectors-use-superconductivity-and-why\/\">The Many Ways Sensitive Detectors of Radiation and Particles Use Superconductivity (and Why)<\/a><\/blockquote><iframe sandbox=\"allow-scripts\" security=\"restricted\" src=\"https:\/\/www.appliedsuperconductivity.org\/asc2022\/schedule\/the-many-ways-sensitive-radiation-and-particle-detectors-use-superconductivity-and-why\/embed\/#?secret=BK0sYE9JcC\" width=\"600\" height=\"338\" title=\"&#8220;The Many Ways Sensitive Detectors of Radiation and Particles Use Superconductivity (and Why)&#8221; &#8212; ASC 2022\" data-secret=\"BK0sYE9JcC\" frameborder=\"0\" marginwidth=\"0\" marginheight=\"0\" scrolling=\"no\" class=\"wp-embedded-content\"><\/iframe><script type=\"text\/javascript\">\n\/* <![CDATA[ *\/\n\/*! This file is auto-generated *\/\n!function(d,l){\"use strict\";l.querySelector&&d.addEventListener&&\"undefined\"!=typeof URL&&(d.wp=d.wp||{},d.wp.receiveEmbedMessage||(d.wp.receiveEmbedMessage=function(e){var t=e.data;if((t||t.secret||t.message||t.value)&&!\/[^a-zA-Z0-9]\/.test(t.secret)){for(var s,r,n,a=l.querySelectorAll('iframe[data-secret=\"'+t.secret+'\"]'),o=l.querySelectorAll('blockquote[data-secret=\"'+t.secret+'\"]'),c=new RegExp(\"^https?:$\",\"i\"),i=0;i<o.length;i++)o[i].style.display=\"none\";for(i=0;i<a.length;i++)s=a[i],e.source===s.contentWindow&&(s.removeAttribute(\"style\"),\"height\"===t.message?(1e3<(r=parseInt(t.value,10))?r=1e3:~~r<200&&(r=200),s.height=r):\"link\"===t.message&&(r=new URL(s.getAttribute(\"src\")),n=new URL(t.value),c.test(n.protocol))&&n.host===r.host&&l.activeElement===s&&(d.top.location.href=t.value))}},d.addEventListener(\"message\",d.wp.receiveEmbedMessage,!1),l.addEventListener(\"DOMContentLoaded\",function(){for(var e,t,s=l.querySelectorAll(\"iframe.wp-embedded-content\"),r=0;r<s.length;r++)(t=(e=s[r]).getAttribute(\"data-secret\"))||(t=Math.random().toString(36).substring(2,12),e.src+=\"#?secret=\"+t,e.setAttribute(\"data-secret\",t)),e.contentWindow.postMessage({message:\"ready\",secret:t},\"*\")},!1)))}(window,document);\n\/\/# sourceURL=https:\/\/www.appliedsuperconductivity.org\/asc2022\/wp-includes\/js\/wp-embed.min.js\n\/* ]]> *\/\n<\/script>\n","description":"ABSTRACT: Some of the most sensitive radiation and particle detectors rely on the unique\u00a0 attributes of superconductivity to achieve their exceptional performance. The broad classification\u00a0 \u201cSuperconducting Detectors\u201d is generally understood in this community to include transition-edge sensors, nano-wire single-photon detectors, superconducting tunnel-junction devices (SIS\u00a0 and SNS), kinetic inductance devices, and magnetic-penetration-depth devices. These sub-groups, however,"}