BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//TYPO3/NONSGML News system (news)//EN
BEGIN:VEVENT
UID:news-44467@phys.au.dk
DTSTAMP:20210929T105652Z
DTSTART:20190502T131500Z
DTEND:20190502T143000Z
END:VEVENT
END:VCALENDAR




<div class="news news-single">
	<div class="article" itemscope="itemscope" itemtype="http://schema.org/Article">
		
	
			<script type="text/javascript">
				const showAllContentLangToken = "Show all content ";
			</script>

			
			

			<article class="typo3-delphinus delphinus-gutters">

				<!-- News PID: 83035 - used for finding folder/page which contains the news / event -->
				<!-- News UID: 44467 - the ID of the current news / event-->

				<div class="news-event">
					<div class="news-event__header">
						<!-- Categories -->
						
							<span class="text--stamp">
<!-- categories -->
<span class="news-list-category">
	
		
	
		
	
		
	
</span>

</span>
						

						<!-- Title -->
						<h1 itemprop="headline">CQOM Colloquium - RE Scholten The University of Melbourne, Australia: Quantum sensing with diamond, and nanoscale imaging and fabrication with electrons and ions from laser-cooled atoms</h1>
						
					</div>

					

					<div class="news-event__content">

						<!-- Events info box -->
						
								

								<div class="news-event__info theme--dark" id="event-info">
									<h2 class="screenreader-only">Info about event</h2>

									
											<!--- Same date -->
											<div class="news-event__info__item news-event__info__item--time">
												<h3 class="news-event__info__item__header text--label-header">Time</h3>
												<div class="news-event__info__item__content">
													<span class="u-avoid-wrap">
														Thursday  2  May 2019,
													</span>
													<span class="u-avoid-wrap">
														&nbsp;at 15:15 -  16:30
													</span>
													<p class="news-event__info__item__ical-link"><a href="/en/news/item/artikel/cqom-seminar-re-scholten-the-university-of-melbourne-australia-quantum-sensing-with-diamond-and-1?tx_news_pi1%5Bformat%5D=ical&amp;type=9819&amp;cHash=c4b0a2df6740e9b7d2bcaab59a5befd1">Add to calendar</a></p>
												</div>
											</div>
										

									<!-- Location detailed -->
									
											<!-- Location Simple -->
											
												<div class="news-event__info__item">
													<h3 class="news-event__info__item__header text--label-header">Location</h3>
													<div class="news-event__info__item__content">
														<p>1525-626</p>
													</div>
												</div>
											
										

									<!-- Organizer detailed -->
									
											<!-- Organizer Simple -->
											
										

									<!-- Price -->
									

									<!-- Event link -->
									

									<!-- Registration -->
									
								</div>
							

						
							<!-- Media -->
							
								



							
						

						
							<div class="news-event__content__text">
								<span class="text--byline" id="byline">
									

									<!-- Author -->
									
										<span itemprop="author" itemscope="itemscope" itemtype="http://schema.org/Person">
											
													By
												

											
													<a href="mailto:flarup@phys.au.dk">
														<span itemprop="name">Grete Flarup</span>
													</a>
												
										</span>
									
								</span>

								

									<!-- Body text -->
									<p>“Quantum technology” normally conjures thoughts of computation and communication, but also has exciting potential applications in new ways of measuring and imaging at the nanometer scale.&nbsp; The NV defect centre in diamond is an especially promising single spin system for quantum measurements, such as magnetic sensing using individual fluorescent nanodiamond NV centres inside living human HeLa cells, wide-field imaging of material magnetization using ensembles of NV centres, and most recently measuring pseudo-magnetic fields with single NV centres rotating at up to 500,000 rpm.</p>
<p> But even classical imaging is a vexing problem at the atomic scale, needed for example to determine the structure of bio-molecules.&nbsp; We have developed a new source of high-coherence electron bunches based on photoionisation of laser-cooled atoms.&nbsp; &nbsp;With laser control of the cold atom cloud, we can shape the electron bunches, and because the electrons are so cold, they retain their shape during propagation.&nbsp; While labeled by colleagues as “the world’s most expensive TV”, it offers the control needed for diffractive imaging at nanometre and picosecond resolution.&nbsp; Using ghost imaging with electron-ion pairs, we are now progressing towards the ability to implant single ions at atomic scale for creation of new quantum devices. </p>
<p><em>Coffee/tea and cake from 15:00</em></p>
								
							</div>
						
					</div>

					
						<!-- Content elements -->
						
					
				</div>
			</article>

			
				
				
			

			<!-- related things -->
			
				<div class="typo3-delphinus delphinus-gutters">
					<aside class="news-related">
						

						

						

						
							<!-- related files -->
							<div class="news-related__block">
								<h2 class="news-related__title--files news-related__title">
									Related Files
								</h2>
								<ul class="news-related__list ul--no-bullets list--links">
									
										<li class="news-related__list__item">
											<a href="/fileadmin/news_import/CQOM_Colloquium_-_Robert_E_Scholten_Quantum_sensing_with_diamond_and_nanoscale.ics" target="_blank" class="news-related__list__item__link">
												CQOM_Colloquium_-_Robert_E_Scholten_Quantum_sensing_with_diamond_and_nanoscale.ics
											</a>
											<span class="news-related__list__item__info">
												39 KB
											</span>
										</li>
									
								</ul>
							</div>
						
					</aside>
				</div>
			
		

	</div>
</div>