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1. Demonstration of two-dimensional connectivity for a scalable error-corrected ion-trap quantum processor architecture

Author

Valentini, Marco, van Mourik, Martin W., Butt, Friederike, Wahl, Jakob, Dietl, Matthias, Pfeifer, Michael, Anmasser, Fabian, Colombe, Yves, Rössler, Clemens, Holz, Philip, Blatt, Rainer, Müller, Markus, Monz, Thomas, and Schindler, Philipp

Subjects
Quantum Physics
Abstract

A major hurdle for building a large-scale quantum computer is to scale up the number of qubits while maintaining connectivity between them. In trapped-ion devices, this connectivity can be provided by physically moving subregisters consisting of a few ions across the processor. The topology of the connectivity is given by the layout of the ion trap where one-dimensional and two-dimensional arrangements are possible. Here, we focus on an architecture based on a rectangular two-dimensional lattice, where each lattice site contains a subregister with a linear string of ions. We refer to this architecture as the Quantum Spring Array (QSA). Subregisters placed in neighboring lattice sites can be coupled by bringing the respective ion strings close to each other while avoiding merging them into a single trapping potential. Control of the separation of subregisters along one axis of the lattice, known as the axial direction, uses quasi-static voltages, while the second axis, the radial, requires control of radio frequency signals. In this work, we investigate key elements of the 2D lattice quantum computation architecture along both axes: We show that the coupling rate between neighboring lattice sites increases with the number of ions per site and the motion of the coupled system can be resilient to noise. The coherence of the coupling is assessed, and an entangled state of qubits in separate trapping regions along the radial axis is demonstrated. Moreover, we demonstrate control over radio frequency signals to adjust radial separation between strings, and thus tune their coupling rate. We further map the 2D lattice architecture to code primitives for fault-tolerant quantum error correction, providing a step towards a quantum processor architecture that is optimized for large-scale fault-tolerant operation., Comment: 23 pages, 19 figures (15 in main text, 4 in appendices)

Published
2024

2. Femtosecond laser written waveguides in sapphire for visible light delivery

Author

Winkler, Sarah, Krenn, Joachim R., Wahl, Jakob, Zesar, Alexander, Colombe, Yves, Schüppert, Klemens, Rössler, Clemens, Sommer, Christian, Hurdax, Philipp, Lichtenegger, Philip, and Lamprecht, Bernhard

Subjects
Physics - Optics, Quantum Physics
Abstract

A promising solution for scalable integrated optics of trapped-ion quantum processors are curved waveguides guiding visible light within sapphire bulk material. To the best of our knowledge, no curved waveguides were investigated in sapphire so far, and no measurements of waveguides with visible light in undoped planar sapphire substrates were reported. Here, we demonstrate femtosecond laser writing of depressed cladding waveguides in sapphire. Laser parameters, such as pulse energy, pulse duration, and repetition rate, as well as waveguide geometry parameters, were optimized to guide 728 nm light. This resulted in single-mode waveguides with a propagation loss of 1.9(3) dB/cm. The investigation of curved waveguides showed a sharp increase in total loss for curvature radii below 15 mm. Our results demonstrate the potential of femtosecond laser writing as a powerful technique for creating integrated optical waveguides in the volume of sapphire substrates. Such waveguides could be a building block for integrated optics in trapped-ion quantum processors.

Published
2024

3. Industrial Ion Trap Chips with Integrated Optics

Author

Zesar, Alexander, Wahl, Jakob, Castro, Sofia Cano, Schüppert, Klemens, Colombe, Yves, Auchter, Silke, Glantschnig, Max, Rössler, Clemens, Lamprecht, Bernhard, Hurdax, Philipp, Schmauser, Marco, Valentini, Marco, Schindler, Philipp, Monz, Thomas, Gordillo, Oscar Jimenez, Melloni, Andrea, Krenn, Joachim, Witzens, Jeremy, editor, Poon, Joyce, editor, Zimmermann, Lars, editor, and Freude, Wolfgang, editor

Published
2024
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4. The Unfolding Space Glove: A Wearable Spatio-Visual to Haptic Sensory Substitution Device for Blind People

Author

Wahl, Jakob Kilian, Alexander Neugebauer, Lasse Scherffig, and Siegfried

Subjects
tactile vision sensory substitution, blind, visually impaired, mobility, navigation, orientation, locomotion, open source, haptic, wearable
Abstract

This paper documents the design, implementation and evaluation of the Unfolding Space Glove—an open source sensory substitution device. It transmits the relative position and distance of nearby objects as vibratory stimuli to the back of the hand and thus enables blind people to haptically explore the depth of their surrounding space, assisting with navigation tasks such as object recognition and wayfinding. The prototype requires no external hardware, is highly portable, operates in all lighting conditions, and provides continuous and immediate feedback—all while being visually unobtrusive. Both blind (n = 8) and blindfolded sighted participants (n = 6) completed structured training and obstacle courses with both the prototype and a white long cane to allow performance comparisons to be drawn between them. The subjects quickly learned how to use the glove and successfully completed all of the trials, though still being slower with it than with the cane. Qualitative interviews revealed a high level of usability and user experience. Overall, the results indicate the general processability of spatial information through sensory substitution using haptic, vibrotactile interfaces. Further research would be required to evaluate the prototype’s capabilities after extensive training and to derive a fully functional navigation aid from its features.

Published
2022
Full Text
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5. Anticipating Success This Season.

Author

Wahl, Jakob

Abstract

The article discusses the anticipated success of theme parks and amusement parks in various regions in 2024. IAAPA expects a 2.0% boost in attendance in North America, a 4.5% increase in Europe, a 10.9% rise in Asia-Pacific, a 14.4% gain in Latin America, and a remarkable 21.5% increase in the Middle East and Africa. The article also highlights the industry's commitment to inclusivity and creating accessible experiences for all guests. It mentions specific attractions that cater to younger children and the trend of attractions offering diverse family entertainment options. The article concludes by expressing gratitude to the professionals who bring these experiences to life and encourages a safe and joyful season of exploration. [Extracted from the article]

Published
2024

7. Future proofing the industry.

Author

Wahl, Jakob

Abstract

47 SPRING PART 1 2021 www.parkworld-online.com T here is no doubt that as an industry, we have all missed meeting up at IAAPA Expos over the last 12 months, but I think we all agree that IAAPA has done a fantastic job of keeping members connected. IAAPA EMEA Spring Summit IAAPA EMEA is excited to safely present an in-person event in Belgium - one of the 2021 attractions industry hotspots. [Extracted from the article]

Published
2021

9. Close to Home.

Author

Wahl, Jakob

Abstract

An interview with Astrid Lindgren's Värld general manager Mikael Ahlerup is presented. In this article, Ahlerup talks about the theme park's new approach to food options and the challenge of entering into a partnership with local farmers and suppliers. He cites that the decision to remove traditional fast foods from the park was a matter of wanting to be authentic and true to the values shared by Astrid Lindgren in her children's books. Ahlerup relates that investment for the new food service concept cost approximately 2-million dollars.

Published
2011

10. Different Owners, Same Mission.

Author

Wahl, Jakob

Abstract

An interview with Fernando Medroa, general manager of the Walibi Belgium amusement park, is presented. When asked on the things he learned from Disney Paris that he used in managing Walibi Belgium, he enumerates the ability to create a team atmosphere, new management tools and operational things. Medroa discusses the success of the Halloween event featuring Draco and the failure of the Vertigo coaster project. He also mentions that the company's focus on seven major attractions in the park helped in weathering the recent economic crisis.

Published
2010

12. Resonant state expansion applied to fiber Fabry-Pérot resonators

Author

Wahl, Jakob and Wahl, Jakob

Abstract

Zukünftige Quantennetzwerke, die auf an optische Resonatoren gekoppelte Ionen beruhen, benötigen kohärente Kopplung zwischen Ion und Resonator. Um die Ionen-Resonator Kopplung zu verstärken, werden Faser-basierte Optische Resonatoren in Ionenfallen integriert. Zur Herstellung faserbasierten Fabry-Pérot (FFP) Resonatoren, werden konkave Formen direkt auf die Stirnseite optischer Fasern gefräst, die gemeinsam mit einer reflektie- renden Beschichtung die Spiegel des Resonators bilden. In experimentellen Gütemessungen zeigen diese FFP Resonatoren steigende Resonatorverluste bei kurzen Resonatorlängen. In dieser Arbeit wird gezeigt, dass diese Verluste durch die Rauheit der Faserspiegel erklärt werden können. Außerdem wird die Implementierung von resonanter Zustandsentwicklung angewandt auf Fabry-Pérot Resonatoren mit zwei Faserspiegeln präsentiert. Diese Software berechnet die Verluste aufgrund von transversaler Modenkopplung von faserbasierten Resonatoren und zieht dabei die Rauheit und endliche Größe der Spiegel mit in Betracht. Wie auch im Experiment, werden die Spiegel in der Simulation in vier Freiheitsgraden ausgerichtet., A future quantum network based on trapped-ions coupled to optical cavities relies on the coherent coupling between ion and cavity. To increase the ion-cavity coupling rate, fiber-based optical cavities are integrated into ion traps. During the production of these fiber based Fabry-Pérot (FFP) resonators, concave surfaces are milled directly onto the end facets of optical fibers to form the resonator mirrors. Optical resonators are characterized by the finesse; a quantity that describes the number of times a photon bounces back and forth between the mirrors. From experimental measurements, an increase of the finesse for shorter fiber cavity lengths has been observed, this increase is not covered by current theoretical models. In this thesis we show that mirror imperfections explain increasing losses at low cavity lengths. We present a software implementation of resonant state expansion applied on FFP resonators. This software calculates the losses due to transverse mode coupling of a FFP resonator with two fiber-based mirrors, taking mirror imperfections and the finite mirror size into account. In line with experimental procedures, this simulation performs mirror alignments with four degrees of freedom per mirror., presented by Jakob Wahl, Zusammenfassung in deutscher Sprache, Masterarbeit University of Innsbruck 2021

13. Resonant state expansion applied to fiber Fabry-Pérot resonators

Author

Wahl, Jakob and Wahl, Jakob

Abstract

Zukünftige Quantennetzwerke, die auf an optische Resonatoren gekoppelte Ionen beruhen, benötigen kohärente Kopplung zwischen Ion und Resonator. Um die Ionen-Resonator Kopplung zu verstärken, werden Faser-basierte Optische Resonatoren in Ionenfallen integriert. Zur Herstellung faserbasierten Fabry-Pérot (FFP) Resonatoren, werden konkave Formen direkt auf die Stirnseite optischer Fasern gefräst, die gemeinsam mit einer reflektie- renden Beschichtung die Spiegel des Resonators bilden. In experimentellen Gütemessungen zeigen diese FFP Resonatoren steigende Resonatorverluste bei kurzen Resonatorlängen. In dieser Arbeit wird gezeigt, dass diese Verluste durch die Rauheit der Faserspiegel erklärt werden können. Außerdem wird die Implementierung von resonanter Zustandsentwicklung angewandt auf Fabry-Pérot Resonatoren mit zwei Faserspiegeln präsentiert. Diese Software berechnet die Verluste aufgrund von transversaler Modenkopplung von faserbasierten Resonatoren und zieht dabei die Rauheit und endliche Größe der Spiegel mit in Betracht. Wie auch im Experiment, werden die Spiegel in der Simulation in vier Freiheitsgraden ausgerichtet., A future quantum network based on trapped-ions coupled to optical cavities relies on the coherent coupling between ion and cavity. To increase the ion-cavity coupling rate, fiber-based optical cavities are integrated into ion traps. During the production of these fiber based Fabry-Pérot (FFP) resonators, concave surfaces are milled directly onto the end facets of optical fibers to form the resonator mirrors. Optical resonators are characterized by the finesse; a quantity that describes the number of times a photon bounces back and forth between the mirrors. From experimental measurements, an increase of the finesse for shorter fiber cavity lengths has been observed, this increase is not covered by current theoretical models. In this thesis we show that mirror imperfections explain increasing losses at low cavity lengths. We present a software implementation of resonant state expansion applied on FFP resonators. This software calculates the losses due to transverse mode coupling of a FFP resonator with two fiber-based mirrors, taking mirror imperfections and the finite mirror size into account. In line with experimental procedures, this simulation performs mirror alignments with four degrees of freedom per mirror., presented by Jakob Wahl, Zusammenfassung in deutscher Sprache, Masterarbeit University of Innsbruck 2021

17. Sicily's Etnaland will be the first waterpark in Europe to add a theme park.

Author

Wahl, Jakob

Abstract

The article offers information on the plan of Etnaland waterpark located in Sicily, Italy to add a theme and amusement park inside its facility. An overview is given on the swimming pools and water slide amenities of the waterpark. Francesco Russello, director of Etnaland, describes the dry theme park concept which includes a cableway, the Crocodile Rapids attraction, and the Jungle Rapid attraction.

Published
2011

18. In the Catbird Seat.

Author

Wahl, Jakob

Abstract

An interview with Swiss Rides Executive Director Philipp Meili about their chairlift attraction at the World Expo 2010 in Shanghai, China is presented. When asked about the concept of the chairlift ride, he explains that it was a traditional ropeway that brings people from the city to the countryside. He recalls the biggest challenges in terms of coordinating all interfaces given a final construction period that was so short and marked by unforeseen obstacles. He states that they are looking for a purchaser for the chair ride after the Expo.

Published
2010

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