{"version":"1.0","provider_name":"In Abstract","provider_url":"https:\/\/www.mub.eps.manchester.ac.uk\/in-abstract","author_name":"Enna Bartlett","author_url":"https:\/\/www.mub.eps.manchester.ac.uk\/in-abstract\/author\/ennabartlett\/","title":"Observation of moir\u00e9 excitons in superlattices in heterostructures of van der Waals semiconductors - In Abstract","type":"rich","width":600,"height":338,"html":"<blockquote class=\"wp-embedded-content\" data-secret=\"3Sl6W4MpPe\"><a href=\"https:\/\/www.mub.eps.manchester.ac.uk\/in-abstract\/moire-excitons-in-superlattices\/\">Observation of moir\u00e9 excitons in superlattices in heterostructures of van der Waals semiconductors<\/a><\/blockquote><iframe sandbox=\"allow-scripts\" security=\"restricted\" src=\"https:\/\/www.mub.eps.manchester.ac.uk\/in-abstract\/moire-excitons-in-superlattices\/embed\/#?secret=3Sl6W4MpPe\" width=\"600\" height=\"338\" title=\"&#8220;Observation of moir\u00e9 excitons in superlattices in heterostructures of van der Waals semiconductors&#8221; &#8212; In Abstract\" data-secret=\"3Sl6W4MpPe\" 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\/* ]]> *\/\n<\/script>\n","thumbnail_url":"https:\/\/www.mub.eps.manchester.ac.uk\/in-abstract\/wp-content\/uploads\/sites\/61\/2018\/11\/Observation-of-moir\u00e9-excitons-in-superlattices-in-heterostructures-of-van-der-Waals-semiconductors.jpg","thumbnail_width":890,"thumbnail_height":350,"description":"A new way to engineer properties of excitons in solids Atomically thin layers of two-dimensional (2D) materials (e.g. graphene) can be assembled in vertical stacks that are held together by van der Waals forces. In such stacks, one can put together planes of atoms with incommensurate lattice constants and arbitrary mutual rotation, which is very [&hellip;]"}