BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//TYPO3/NONSGML News system (news)//EN
BEGIN:VEVENT
UID:news-54540@phys.au.dk
DTSTAMP:20220819T124303Z
DTSTART:20210428T130000Z
DTEND:20210428T140000Z
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 = "Vis alt indhold ";
			</script>

			
			

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

				<!-- News PID: 132027 - used for finding folder/page which contains the news / event -->
				<!-- News UID: 54540 - 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">Quantum Science Colloquium: Tobias Schätz, University of Freiburg</h1>
						

							<!-- Teaser -->
							<p class="text--intro" itemprop="description"><p>Optical Traps for Ions &amp; Ultracold Atoms: 
</p>
<p>The Onset of Sympathetic Cooling and of the control of quantum effects </p></p>
						
					</div>

					

					<div class="news-event__content">

						<!-- Events info box -->
						
								

								<div class="news-event__info theme--dark" id="event-info">
									<h2 class="screenreader-only">Oplysninger om arrangementet</h2>

									
											<!--- Same date -->
											<div class="news-event__info__item news-event__info__item--time">
												<h3 class="news-event__info__item__header text--label-header">Tidspunkt</h3>
												<div class="news-event__info__item__content">
													<span class="u-avoid-wrap">
														Onsdag 28. april 2021,
													</span>
													<span class="u-avoid-wrap">
														&nbsp;kl. 15:00 -  16:00
													</span>
													<p class="news-event__info__item__ical-link"><a href="/ccq/show/artikel/ccqcqom-colloquium-6?tx_news_pi1%5Bformat%5D=ical&amp;type=9819&amp;cHash=70f01565f920ec8cf81f9250a9d9f52b">Tilføj til kalender</a></p>
												</div>
											</div>
										

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

											
													<a href="mailto:line@phys.au.dk">
														<span itemprop="name">CCQ</span>
													</a>
												
										</span>
									
								</span>

								

									<!-- Body text -->
									<p>Abstract</p>
<p>Isolating ions and atoms from the environment is essential for experiments, especially if we aim to study quantum effects. For decades, this has been achieved by trapping ions with radiofrequency (rf) fields and neutral particles with optical fields. We are trapping ions by the interaction with light and electrostatic fields, in absence of any rf-fields. We take our results as starting point for studying how to combine the advantages of optical trapping and ions. First, we will focus on the basics of optically trapping ions. In the second part we aim to demonstrate the prospects of our approach in the context of interaction and reaction at ultra-low temperatures as a showcase. Following the seminal work in other groups in hybrid traps, we embed optically trapped ions into quantum gases to reach lowest temperatures, circumventing the currently inevitable excess kinetic energy in hybrid traps, where ions are kept but also driven by rf-fields. It might permit to enter the temperature regime where quantum effects are predicted to dominate. We will discuss our recent results on optically trapping 138Ba+, 87Rb and 6Li atoms in hybrid- and bi-chromatic dipole traps, related challenges and perspectives.</p>
<p>&nbsp;</p>
<p>&nbsp;</p>
								
							</div>
						
					</div>

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

			
				
				
			

			<!-- related things -->
			
		

	</div>
</div>