Conveners
online ECTI: TUE-1
- Roee Ozeri
online ECTI: TUE-2
- Tobias Schaetz
online ECTI: TUE-3
- Christian Roos (University of Innsbruck, Austria)
online ECTI: TUE-4
- Christian Ospelkaus (Leibniz Universitรคt Hannover & PTB Braunschweig)
online ECTI: WED-1
- Henning Schmidt (Stockholm University)
online ECTI: WED-2
- Stephan Schlemmer (I. Physikalisches Institut, Universitaet zu Koeln)
online ECTI: WED-3
- Stefan Willitsch (University of Basel)
online ECTI: WED-4
- Markus Hennrich (Stockholm University)
online ECTI
- Kihwan Kim (Tsinghua University)
online ECTI
- Michael Drewsen (Aarhus University)
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Dr Steven A. King (Physikalisch-Technische Bundesanstalt)23/11/2021, 09:00invited talk
It has been more than a decade since highly charged ions (HCI) were first proposed as exciting candidates for next-generation frequency standards [1] and for precision tests of fundamental physics [2]. The technical obstacles hindering the development of a competitive clock based on a cold HCI have fallen one by one, starting with the extraction of an HCI from a hot plasma and sympathetic...
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Stefan Willitsch (University of Basel)23/11/2021, 09:30invited talk
The development of quantum technologies for molecules has remained a long-standing challenge due to the complexity of molecular systems. We have recently developed a technique for the non-destructive detection of the internal quantum state of a single trapped molecular ion [1,2,3]. The method is based on the state-dependent coherent excitation of the motion of the molecular ion and subsequent...
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Stephan Schlemmer (I. Physikalisches Institut, Universitaet zu Koeln)23/11/2021, 10:00invited talk
Ions play a key role in the chemical evolution of our universe. The process of star and planet formation is tightly connected to the presence and abundance of these species. Their spectra are diagnostic tools for various astrophysical environments and their temporal evolution. However, laboratory spectra of most ions relevant to astrophysics are not available. Moreover, predicted spectra from...
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Giovanna Morigi (Saarland University)23/11/2021, 11:00invited talk
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Kihwan Kim (Tsinghua University)23/11/2021, 11:30invited talk
In this talk, we discuss two directions of scaling up the trapped-ion system for quantum computation and quantum simulation. The first one is to use vibrational degrees of freedom in a linear chain of ions and the second one is to use internal degrees of freedom in the 2D crystals of ions.
Recently, the vibrational degrees of freedom of trapped ions have been extensively studied and are...
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Christian Roos (University of Innsbruck, Austria)23/11/2021, 12:00invited talk
Precision spectroscopy with trapped ion crystals subject to correlated dephasing can reveal a multitude of information in the absence of any single-particle coherences. We present measurements of ion-ion distances, transition frequency shifts and single-shot measurements of laser-ion detunings by analyzing multi-particle correlations in one- and two-dimensional ion crystals of up to 91 ions....
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Martin Ringbauer (University of Innsbruck)23/11/2021, 14:00invited talk
Todayโs quantum computers are almost exclusively built for binary information processing, inherited from classical computers. Yet, the underlying quantum systems, in particular trapped ions, are inherently multilevel systems. I will discuss how to construct a universal toolbox for quantum information processing in (almost) the full Hilbert space of Ca40 ions. We demonstrate that the...
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Tracy Northup (University of Innsbruck)23/11/2021, 14:30invited talk
Optomechanical systems in the quantum regime allow us to probe quantum mechanics at the boundary between the microscopic and macroscopic; these systems are also promising candidates for precision sensors. By levitating an optomechanical system in an ion trap, we decouple it from its environment, a significant advantage for quantum applications.
Interferometric methods have been used in...
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Christian Ospelkaus (Leibniz Universitรคt Hannover & PTB Braunschweig)23/11/2021, 15:00invited talk
This talk will summarize recent developments towards the realization of a universal integrated two-qubit quantum computation register for a register-based ion-trap quantum processor. We demonstrated high-fideltiy integrated two-qubit microwave quantum gates with infidelities approach 10-3. Through tailored pulse envelopes, we can suppress the sensitivity to the thus-far dominant source of gate...
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Raghavendra Srinivas (National Institute of Standards and Technology)23/11/2021, 15:30invited talk
Universal control of multiple qubits -- the ability to entangle qubits and to perform arbitrary individual qubit operations -- is a fundamental resource for quantum computing, simulation, and networking. Qubits realized in trapped atomic ions have shown the highest-fidelity two-qubit entangling operations and single-qubit rotations to date. Universal control of trapped ion qubits has...
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Chin-wen Chou (NIST, Boulder)23/11/2021, 16:30invited talk
We demonstrate coherent quantum state manipulation and precision spectroscopy of a CaH+ molecular ion based on quantum-logic spectroscopy [1-6]. Similar to atomic ions, nowadays single molecular ions can be initialized and nondestructively detected the in a pure quantum state, albeit in a probabilistic but heralded fashion [2-6]. Numerous terahertz transitions between CaH+ states with...
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John Bollinger (National Institute of Standards and Technology (NIST))23/11/2021, 17:00invited talk
I will describe a quantum-enhanced sensor to detect weak motional displacements and electric fields using a large crystal of โผ 150 trapped ions. The center-of-mass vibrational mode of the crystal serves as high-Q mechanical oscillator and the collective electronic spin as the measurement device. By entangling the oscillator and the collective spin before the motional displacement is applied...
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Hartmut Haeffner (UC Berkeley)23/11/2021, 17:30invited talk
We explore the feasibility of processing quantum information encoded in the spin of electrons trapped ion a Paul trap. The main idea is to replace the ions in a QCCD(quantum charge-coupled device) ion trap quantum computer with electrons. The combination of the low mass and simple internal structure should enable high-speed operation while allowing for high-fidelity operation. In particular,...
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Christopher Monroe (Duke University and IonQ, Inc)23/11/2021, 18:00invited talk
Laser-cooled trapped atomic ions are well-established as possessing the highest performance of any platform for quantum computing. But as importantly, the path to scaling trapped ion quantum computers involves well-defined architectural plans, from shuttling ions between quantum processor unit (QPU) cores and modular photonic interconnects between multiple QPUs to gradual error-correction...
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Prof. Kjeld S. E. Eikema (Vrije Universiteit Amsterdam, LaserLaB)24/11/2021, 09:00invited talk
Spectroscopy of atoms and molecules have played a central role in our understanding of physics. It has also become increasingly important to measure the fundamental physical constants such as the fine-structure constant, the Rydberg constant, the proton-electron mass ratio, or the charge radius of the proton, deuteron and the alpha particle. In order to do so, a single type of measurement is...
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Prof. Daniel Rodrรญguez (Universidad de Granada)24/11/2021, 09:30invited talk
The use of quartz resonators for induced image current detection of trapped ions has been pioneered in a collaboration between the Universities of Granada and Mainz, aiming at developing a novel detection system for the measurement of the cyclotron frequencies of single ions. One of the anticipated applications is mass measurements of superheavy elements produced in fusion-evaporation...
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Oldrich Novotny (Max-Planck-Institut fรผr Kernphysik)24/11/2021, 10:00invited talk
In last decades room-temperature ion storage rings have proven to be unique tools for investigating properties and reaction dynamics of molecular ions, in particular the low-energy electron-ion collisions in merged beams. This is mainly due to 1) the long storage of the ions allowing relaxation of the internal ion states and 2) the ion beam target preparation for experiments at high...
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Henning Schmidt (Stockholm University)24/11/2021, 11:00invited talk
The storage ring facility, DESIREE, is briefly introduced and two examples of experiments and their astrophysical implications are discussed. 1: Mutual-neutralization reactions between negative hydrogen and positive metal ions are studied in DESIREE to aid quantitative analysis of abundances of such metals from stellar spectra. 2: Polycyclic aromatic hydrocarbons (PAHs) are...
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Prof. Steen Brรธndsted Nielsen (Aarhus University)24/11/2021, 11:30invited talk
In a network of chromophores (i.e., light-absorbers) such as that in photosynthetic proteins, the chromophores interact strongly at short distances where orbital overlap is significant, and new quantum states arise after photoexcitation. These states are no longer associated with one chromophore but spatially delocalized over two or more chromophores. On the other hand, when the chromophores...
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Krzysztof Jachymski (University of Warsaw)24/11/2021, 12:00invited talk
The presence of strong interactions in a many-body quantum system can lead to a variety of exotic effects. For the case of a charged impurity in a weakly interacting bosonic medium the competition of length scales can give rise to a highly correlated mesoscopic state. Its properties are vastly different from neutral quantum impurities, with a large density increase close to the ion location...
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Dr Rianne Lous (University of Amsterdam)24/11/2021, 14:00invited talk
In this talk I will present measurements of chemical reactions between a single trapped Yb+ ion and an ultracold bath of Li atoms containing trace amounts of Li$_2$ dimers. This produces LiYb$^+$ molecular ions that we detect via mass spectrometry. Our results present a novel approach towards the creation of cold molecular ions and point to the exploration of ultracold chemistry in ion...
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Georg Morten Bruun (Aarhus University)24/11/2021, 14:30invited talk
We investigate the properties of ions immersed in an atomic Bose-Einstein condensate (BEC) or an ultracold Fermi gas using variational and diagrammatic methods. For both cases, we show that the ion can form several quasiparticle states, which are charged analogues of the Fermi and Bose polarons observed in neutral atomic gases. Due to the long-range nature of the atom-ion interaction, these...
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Nitzan Akerman, Or Katz (Weizmann Institute)24/11/2021, 15:00invited talk
Studies of interactions between a single ion and a neutral atom, in a well-defined quantum state, constitute a corner stone in quantum chemistry. Yet, the number of techniques which enable measurement of cold collision processes and cross-section measurement is handful. We present three different fronts to improve the measurements resolution, applicability and accuracy in the measurements of...
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Prof. Tobias Schaetz (Albert Ludwigs University Freiburg)24/11/2021, 15:30invited talk
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...
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Nils Huntemann (Physikalisch-Technische Bundesanstalt)24/11/2021, 16:30invited talk
The talk summarizes our work on optical atomic clocks at PTB and in the quantum technology project opticlock [1] both employing trapped Yb+ ions. The 171Yb+ ion provides two atomic transitions that are well suited as a frequency reference: the S-D electric quadrupole (E2) transition at 436 nm and the S-F electric octupole (E3) transition at 467 nm. The latter is known for its yearslong excited...
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David Leibrandt (NIST)24/11/2021, 17:00invited talk
In this talk, I will present incoherent and coherent frequency ratio measurements between optical atomic clocks, and the use of these measurements to constrain models of ultralight scalar dark matter. I will begin with a brief summary of the NIST Al$^+$ quantum-logic clocks, which use quantum-logic gates with a co-trapped second ion species for preparation and readout of the Al$^+$ state [1]...
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Jun Ye24/11/2021, 17:30invited talk
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Karan Mehta (ETH Zรผrich and Cornell University)25/11/2021, 09:00invited talk
The optics required for control of trapped-ion quantum systems have posed a major obstacle in scaling experimental systems, despite these qubitsโ fundamental qualities. I will discuss recent work on integrated photonic approaches to trapped-ion control [1,2], which may facilitate scaling and simultaneously reduce relevant noise sources even in current small-scale experiments. In addition,...
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Christian Marciniak (Universitรคt Innsbruck)25/11/2021, 09:30invited talk
Quantum sensors are an established technology that has created new opportunities for precision sensing across the breadth of science. Using entanglement for quantum-enhancement will allow us to construct the next generation of sensors that can approach the fundamental limits of precision allowed by quantum physics. However, determining how state-of-the-art sensing platforms may be used to...
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Dr Cyrille Solaro (Laboratoire Kastler Brossel / Ecole Normale Supรฉrieure - PSL)25/11/2021, 10:00invited talk
I will present direct frequency-comb Raman spectroscopy of the $3d~^2D_{3/2}$ - $3d~^2D_{5/2}$ interval in all stable even isotopes of $^A$Ca$^+$ (A = 40, 42, 44, 46, and 48) [1,2]. With an accuracy of $\sim$20 Hz on the deduced isotope shifts, these data, combined with measurements of the $4s~^2S_{1/2}\leftrightarrow 3d~^2D_{5/2}$ transition ($\sim$2 kHz accuracy), allowed us to carry out a...
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Klemens Hammerer (Leibniz Universitรคt Hannover)25/11/2021, 17:00invited talk
Optical atomic clocks based on cold trapped ions offer the possibilities to exploit the sophisticated tools of quantum control devoloped for quantum information processing for new protocols in frequency metrology. I will present results on optimization of such protocols towards tailored States and measurements for ion Clocks. I will also discuss prospects and challenges for quantum enhanced...
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Victor Krutyanskiy (Innsbruck University)25/11/2021, 17:30invited talk
Trapped ions are known for being one of the leading quantum computing platforms as well as for their potential in metrology and sensing. Efficient interfacing of registers of trapped ions with travelling photons would allow to link them into a distributed network trapped-ion-based nodes. This can enable remarkable applications of the quantum networks e.g. in quantum enhanced distributed...
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Prof. Michael Drewsen (Aarhus University)25/11/2021, 18:00
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Georg Bruun
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Karan Mehtainvited talk