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1. Quantum magnetometry of transient signals with a time resolution of 1.1 nanoseconds

Author

Herb, Konstantin, Völker, Laura A., Abendroth, John M., Meinhardt, Nicholas, van Schie, Laura, Gambardella, Pietro, and Degen, Christian L.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Instrumentation and Detectors
Abstract

Quantum magnetometers based on spin defects in solids enable sensitive imaging of various magnetic phenomena, such as ferro- and antiferromagnetism, superconductivity, and current-induced fields. Existing protocols primarily focus on static fields or narrow-band dynamical signals, and are optimized for high sensitivity rather than fast time resolution. Here, we report detection of fast signal transients, providing a perspective for investigating the rich dynamics of magnetic systems. We experimentally demonstrate our technique using a single nitrogen-vacancy (NV) center magnetometer at room temperature, reaching a best-effort time resolution of 1.1 ns, an instantaneous bandwidth of 0.9 GHz, and a time-of-flight precision better than 20 ps. The time resolution can be extended to the picosecond range by use of on-chip waveguides. At these speeds, NV quantum magnetometers will become competitive with time-resolved synchrotron X-ray techniques. Looking forward, adding fast temporal resolution to the spatial imaging capability further promotes single-spin probes as powerful research tools in spintronics, mesoscopic physics, and nanoscale device metrology., Comment: 11 pages including methods

Published
2024

2. Observation of chiral domain walls in an octupole-ordered antiferromagnet

Author

Tsukamoto, Moeta, Xu, Zhewen, Higo, Tomoya, Kondou, Kouta, Sasaki, Kento, Asakura, Mihiro, Sakamoto, Shoya, Gambardella, Pietro, Miwa, Shinji, Otani, YoshiChika, Nakatsuji, Satoru, Degen, Christian L., and Kobayashi, Kensuke

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin chirality in antiferromagnets offers new opportunities for spintronics. The kagome antiferromagnet Mn3Sn is a paradigmatic material in which the antiferromagnetic order parameter can be detected and controlled by electrical means. However, direct investigation of the magnetic texture of Mn3Sn has been challenging because of the tiny moment hosted in its magnetic octupole, hindering further clarification of this unique material. Here, we address this issue by observing the stray magnetic field from Mn3Sn using a diamond quantum scanning magnetometer. The spatially-resolved intrinsic domains and domain walls in a high-quality single-crystalline Mn3Sn film quantitatively reveal the polarization angle of the magnetic octupole in the kagome plane, the domain's local magnetization, the domain wall's width and chirality, and the octupole order in domain walls. Our nanoscale investigation of Mn3Sn, a powerful complement to macroscopic measurements, paves the road for developing chiral antiferromagnetism and its potential for spintronic applications., Comment: 17 pages, 4 figures

Published
2024

3. Which Programming Language and What Features at Pre-training Stage Affect Downstream Logical Inference Performance?

Author

Uchiyama, Fumiya, Kojima, Takeshi, Gambardella, Andrew, Cao, Qi, Iwasawa, Yusuke, and Matsuo, Yutaka

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Recent large language models (LLMs) have demonstrated remarkable generalization abilities in mathematics and logical reasoning tasks. Prior research indicates that LLMs pre-trained with programming language data exhibit high mathematical and reasoning abilities; however, this causal relationship has not been rigorously tested. Our research aims to verify which programming languages and features during pre-training affect logical inference performance. Specifically, we pre-trained decoder-based language models from scratch using datasets from ten programming languages (e.g., Python, C, Java) and three natural language datasets (Wikipedia, Fineweb, C4) under identical conditions. Thereafter, we evaluated the trained models in a few-shot in-context learning setting on logical reasoning tasks: FLD and bAbi, which do not require commonsense or world knowledge. The results demonstrate that nearly all models trained with programming languages consistently outperform those trained with natural languages, indicating that programming languages contain factors that elicit logic inference performance. In addition, we found that models trained with programming languages exhibit a better ability to follow instructions compared to those trained with natural languages. Further analysis reveals that the depth of Abstract Syntax Trees representing parsed results of programs also affects logical reasoning performance. These findings will offer insights into the essential elements of pre-training for acquiring the foundational abilities of LLMs.

Published
2024

4. Answer When Needed, Forget When Not: Language Models Pretend to Forget via In-Context Knowledge Unlearning

Author

Takashiro, Shota, Kojima, Takeshi, Gambardella, Andrew, Cao, Qi, Iwasawa, Yusuke, and Matsuo, Yutaka

Subjects
Computer Science - Computation and Language
Abstract

As large language models (LLMs) are applied across diverse domains, the ability to selectively unlearn specific information has become increasingly essential. For instance, LLMs are expected to provide confidential information to authorized internal users, such as employees or trusted partners, while withholding it from external users, including the general public and unauthorized entities. In response to this challenge, we propose a novel method termed ``in-context knowledge unlearning'', which enables the model to selectively forget information in test-time based on the context of the query. Our method fine-tunes pre-trained LLMs to enable prompt unlearning of target knowledge within the context, while preserving other knowledge. Experiments on the TOFU and AGE datasets using Llama2-7B/13B and Mistral-7B models show our method achieves up to 95% forgetting accuracy while retaining 80% of unrelated knowledge, significantly outperforming baselines in both in-domain and out-of-domain scenarios. Further investigation into the model's internal behavior revealed that while fine-tuned LLMs generate correct predictions in the middle layers and maintain them up to the final layer, they make the decision to forget at the last layer, i.e., ``LLMs pretend to forget''. Our findings offer valuable insights into enhancing the robustness of unlearning mechanisms in LLMs, setting a foundation for future research in the field.

Published
2024

5. Control of spin-orbit torque-driven domain nucleation through geometry in chirally coupled magnetic tracks

Author

Beaulieu, Guillaume, Luo, Zhaochu, Raposo, Víctor, Heyderman, Laura J., Gambardella, Pietro, Martínez, Eduardo, and Hrabec, Aleš

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The interfacial Dzyaloshinskii-Moriya interaction (DMI) can be exploited in magnetic thin films to realize lateral chirally coupled systems, providing a way to couple different sections of a magnetic racetrack and realize interconnected networks of magnetic logic gates. Here, we systematically investigate the interplay between spin-orbit torques, chiral coupling and the device design in domain wall racetracks. We show that the current-induced domain nucleation process can be tuned between single-domain nucleation and repeated nucleation of alternate domains by changing the orientation of an in-plane patterned magnetic region within an out-of-plane magnetic racetrack. Furthermore, by combining experiments and micromagnetic simulations, we show that the combination of damping-like and field-like spin-orbit torques with DMI results in selective domain wall injection in one of two arms of a Y-shaped devices depending on the current density. Such an element constitutes the basis of domain wall based demultiplexer, which is essential for distributing a single input to any one of the multiple outputs in logic circuits. Our results provide input for the design of reliable and multifunctional domain-wall circuits based on chirally coupled interfaces.

Published
2024
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6. Competing Ordinary and Hanle Magnetoresistance in Pt and Ti Thin Films

Author

Sailler, Sebastian, Sala, Giacomo, Reustlen, Denise, Schlitz, Richard, Kang, Min-Gu, Gambardella, Pietro, Goennenwein, Sebastian T. B., and Lammel, Michaela

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

One of the key elements in spintronics research is the spin Hall effect, allowing to generate spin currents from charge currents. A large spin Hall effect is observed in materials with strong spin orbit coupling, e.g., Pt. Recent research suggests the existence of an orbital Hall effect, the orbital analogue to the spin Hall effect, which also arises in weakly spin orbit coupled materials like Ti, Mn or Cr. In Pt both effects are predicted to coexist. In any of these materials, a magnetic field perpendicular to the spin or orbital accumulation leads to additional Hanle dephasing and thereby the Hanle magnetoresistance (MR). To reveal the MR behavior of a material with both spin and orbital Hall effect, we thus study the MR of Pt thin films over a wide range of thicknesses. Careful evaluation shows that the MR of our textured samples is dominated by the ordinary MR rather than by the Hanle effect. We analyze the intrinsic properties of Pt films deposited by different groups and show that next to the resistivity also the structural properties of the film influence which MR dominates. We further show that this correlation can be found in both spin Hall active materials like Pt and orbital Hall active materials, like Ti. For both materials, the crystalline samples shows a MR attributed to the ordinary MR, whereas we find a large Hanle MR for the samples without apparent structural order. We then provide a set of rules to distinguish between the ordinary and the Hanle MR. We conclude that in all materials with a spin or orbital Hall effect the Hanle MR and the ordinary MR coexist and the purity and crystallinity of the thin film determine the dominating effect.

Published
2024

7. Pulse Shaping Strategies for Efficient Switching of Magnetic Tunnel Junctions by Spin-Orbit Torque

Author

Hoffmann, Marco, Krizakova, Viola, Kateel, Vaishnavi, Cai, Kaiming, Couet, Sebastien, and Gambardella, Pietro

Subjects
Physics - Applied Physics
Abstract

The writing energy for reversing the magnetization of the free layer in a magnetic tunnel junction (MTJ) is a key figure of merit for comparing the performances of magnetic random access memories with competing technologies. Magnetization switching of MTJs induced by spin torques typically relies on square voltage pulses. Here, we focus on the switching of perpendicular MTJs driven by spin-orbit torque (SOT), for which the magnetization reversal process consists of sequential domain nucleation and domain wall propagation. By performing a systematic study of the switching efficiency and speed as a function of pulse shape, we show that shaped pulses achieve up to 50% reduction of writing energy compared to square pulses without compromising the switching probability and speed. Time-resolved measurements of the tunneling magnetoresistance reveal how the switching times are strongly impacted by the pulse shape and temperature rise during the pulse. The optimal pulse shape consists of a preheating phase, a maximum amplitude to induce domain nucleation, and a lower amplitude phase to complete the reversal. Our experimental results, corroborated by micromagnetic simulations, provide diverse options to reduce the energy footprint of SOT devices in magnetic memory applications., Comment: 10 pages, 7 figures

Published
2024
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8. Mitigation of Gilbert Damping in the CoFe/CuOx Orbital Torque System

Author

Ding, Shilei, Wang, Hanchen, Legrand, William, Noël, Paul, and Gambardella, Pietro

Subjects
Condensed Matter - Materials Science
Abstract

Charge-spin interconversion processes underpin the generation of spin-orbit torques in magnetic/nonmagnetic bilayers. However, efficient sources of spin currents such as 5d metals are also efficient spin sinks, resulting in a large increase of magnetic damping. Here we show that a partially-oxidized 3d metal can generate a strong orbital torque without a significant increase in damping. Measurements of the torque efficiency {\xi} and Gilbert damping {\alpha} in CoFe/CuOx and CoFe/Pt indicate that {\xi} is comparable. The increase in damping relative to a single CoFe layer is {\Delta}{\alpha}<0.002 in CoFe/CuOx and {\Delta}{\alpha} ~ 0.005 - 0.02 in CoFe/Pt, depending on CoFe thickness. We ascribe the nonreciprocal relationship between {\Delta}{\alpha} and {\xi} in CoFe/CuOx to the small orbital-to-spin current ratio generated by magnetic resonance in CoFe and the lack of an efficient spin sink in CuOx. Our findings provide new perspectives on the efficient excitation of magnetization dynamics via the orbital torque.

Published
2024
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9. Lattice-tunable substituted iron garnets for low-temperature magnonics

Author

Legrand, William, Kemna, Yana, Schären, Stefan, Wang, Hanchen, Petrosyan, Davit, Siegl, Luise, Schlitz, Richard, Lammel, Michaela, and Gambardella, Pietro

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The magnetic resonance of iron garnets is at the heart of rich physics and provides a crucial technology used inside microwave components. A barrier still stands in the way of integrated cryogenic devices with iron garnets, because their epitaxy requires paramagnetic substrates that cause large microwave losses at low temperatures. Finding alternative combinations of substrates and magnetic garnets is thus essential to enabling cryogenic integrated magnonics. With this motivation, we develop a new approach to the synthesis of epitaxial garnet films, based on the co-sputtering of binary oxides, enabling a precise and continuous tuning of the iron garnet composition. By substituting a controlled proportion of the iron with additional yttrium, we obtain Y$_{3}$(Y$_{x}$Fe$_{5-x}$)O$_{12}$ films of high crystalline quality that can be lattice-matched to yttrium scandium gallium garnet (YSGG), a diamagnetic substrate suitable for low-temperature applications. Ferromagnetic resonance performed at low temperatures confirms the elimination of substrate paramagnetism losses on YSGG. We also show that the Y$_{3}$(Y$_{x}$Fe$_{5-x}$)O$_{12}$ system can be matched to other substrates, such as gadolinium yttrium scandium gallium garnet and gadolinium scandium gallium garnet. Additionally, we demonstrate that Bi-substituted films of (Bi$_{0.8}$Y$_{2.2}$)Fe$_{5}$O$_{12}$ also offer ideal lattice matching to YSGG for low-temperature magnetic resonance. The present approach of controlled substitutions in iron garnets to obtain ideal lattice matching with diamagnetic substrates opens a very promising pathway to magnonic devices operating in low-temperature environments., Comment: Main: 18 pages, 6 figures; Supplement: 9 pages, 6 figures

Published
2024

10. Orbital Torque in Rare-Earth Transition-Metal Ferrimagnets

Author

Ding, Shilei, Kang, Min-Gu, Legrand, William, and Gambardella, Pietro

Subjects
Condensed Matter - Materials Science
Abstract

Orbital currents have recently emerged as a promising tool to achieve electrical control of the magnetization in thin-film ferromagnets. Efficient orbital-to-spin conversion is required in order to torque the magnetization. Here we show that the injection of an orbital current in a ferrimagnetic GdyCo100-y alloy generates strong orbital torques whose sign and magnitude can be tuned by changing the Gd content and temperature. The effective spin-orbital Hall angle reaches up to -0.25 in a GdyCo100-y/CuOx bilayer compared to +0.03 in Co/CuOx and +0.13 in GdyCo100-y/Pt. This behavior is attributed to the local orbital-to-spin conversion taking place at the Gd sites, which is about five times stronger and of the opposite sign relative to Co. Furthermore, we observe a manyfold increase in the net orbital torque at low temperature, which we attribute to the improved conversion efficiency following the magnetic ordering of the Gd and Co sublattices.

Published
2024
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11. Spin torque driven electron paramagnetic resonance of a single spin in a pentacene molecule

Author

Kovarik, Stepan, Schlitz, Richard, Vishwakarma, Aishwarya, Ruckert, Dominic, Gambardella, Pietro, and Stepanow, Sebastian

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Control over quantum systems is typically achieved by time-dependent electric or magnetic fields. Alternatively, electronic spins can be controlled by spin-polarized currents. Here we demonstrate coherent driving of a single spin by a radiofrequency spin-polarized current injected from the tip of a scanning tunneling microscope into an organic molecule. With the excitation of electron paramagnetic resonance, we established dynamic control of single spins by spin torque using a local electric current. In addition our work highlights the dissipative action of the spin-transfer torque, in contrast to the nondissipative action of the magnetic field, which allows for the manipulation of individual spins based on controlled decoherence.

Published
2024
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12. Language Models Do Hard Arithmetic Tasks Easily and Hardly Do Easy Arithmetic Tasks

Author

Gambardella, Andrew, Iwasawa, Yusuke, and Matsuo, Yutaka

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

The ability (and inability) of large language models (LLMs) to perform arithmetic tasks has been the subject of much theoretical and practical debate. We show that LLMs are frequently able to correctly and confidently predict the first digit of n-digit by m-digit multiplication tasks without using chain of thought reasoning, despite these tasks require compounding operations to solve. Simultaneously, LLMs in practice often fail to correctly or confidently predict the last digit of an n-digit by m-digit multiplication, a task equivalent to 1-digit by 1-digit multiplication which can be easily learned or memorized. We show that the latter task can be solved more robustly when the LLM is conditioned on all of the correct higher-order digits, which on average increases the confidence of the correct last digit on 5-digit by 5-digit multiplication tasks using Llama 2-13B by over 230% (0.13 to 0.43) and Mistral-7B by 150% (0.22 to 0.55)., Comment: In Proceedings of the 62nd Annual Meeting of the Association for Computational Linguistics (Volume 2: Short Papers)

Published
2024

13. On the integrality gap of the Complete Metric Steiner Tree Problem via a novel formulation

Author

Bernardelli, Ambrogio Maria, Vercesi, Eleonora, Gualandi, Stefano, Mastrolilli, Monaldo, and Gambardella, Luca Maria

Subjects
Mathematics - Optimization and Control, Computer Science - Discrete Mathematics
Abstract

In this work, we study the metric Steiner Tree problem on graphs focusing on computing lower bounds for the integrality gap of the bi-directed cut (DCUT) formulation and introducing a novel formulation, the Complete Metric (CM) model, specifically designed to address the weakness of the DCUT formulation on metric instances. A key contribution of our work is extending of the Gap problem, previously explored in the context of the Traveling Salesman problems, to the metric Steiner Tree problem. To tackle the Gap problem for Steiner Tree instances, we first establish several structural properties of the CM formulation. We then classify the isomorphism classes of the vertices within the CM polytope, revealing a correspondence between the vertices of the DCUT and CM polytopes. Computationally, we exploit these structural properties to design two complementary heuristics for finding nontrivial small metric Steiner instances with a large integrality gap. We present several vertices for graphs with a number of nodes $\leq 10$, which realize the best-known lower bounds on the integrality gap for the CM and the DCUT formulations. We conclude the paper by presenting three new conjectures on the integrality gap of the DCUT and CM formulations for small graphs., Comment: 27 pages, 4 figures

Published
2024

14. Taming Stable Diffusion for Text to 360{\deg} Panorama Image Generation

Author

Zhang, Cheng, Wu, Qianyi, Gambardella, Camilo Cruz, Huang, Xiaoshui, Phung, Dinh, Ouyang, Wanli, and Cai, Jianfei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Generative models, e.g., Stable Diffusion, have enabled the creation of photorealistic images from text prompts. Yet, the generation of 360-degree panorama images from text remains a challenge, particularly due to the dearth of paired text-panorama data and the domain gap between panorama and perspective images. In this paper, we introduce a novel dual-branch diffusion model named PanFusion to generate a 360-degree image from a text prompt. We leverage the stable diffusion model as one branch to provide prior knowledge in natural image generation and register it to another panorama branch for holistic image generation. We propose a unique cross-attention mechanism with projection awareness to minimize distortion during the collaborative denoising process. Our experiments validate that PanFusion surpasses existing methods and, thanks to its dual-branch structure, can integrate additional constraints like room layout for customized panorama outputs. Code is available at https://chengzhag.github.io/publication/panfusion., Comment: CVPR 2024. Project Page: https://chengzhag.github.io/publication/panfusion Code: https://github.com/chengzhag/PanFusion

Published
2024

15. A theoretical framework for the design and analysis of computational thinking problems in education

Author

Adorni, Giorgia, Piatti, Alberto, Bumbacher, Engin, Negrini, Lucio, Mondada, Francesco, Assaf, Dorit, Mangili, Francesca, and Gambardella, Luca

Subjects
Computer Science - Human-Computer Interaction
Abstract

The field of computational thinking education has grown in recent years as researchers and educators have sought to develop and assess students' computational thinking abilities. While much of the research in this area has focused on defining computational thinking, the competencies it involves and how to assess them in teaching and learning contexts, this work takes a different approach. We provide a more situated perspective on computational thinking, focusing on the types of problems that require computational thinking skills to be solved and the features that support these processes. We develop a framework for analysing existing computational thinking problems in an educational context. We conduct a comprehensive literature review to identify prototypical activities from areas where computational thinking is typically pursued in education. We identify the main components and characteristics of these activities, along with their influence on activating computational thinking competencies. The framework provides a catalogue of computational thinking skills that can be used to understand the relationship between problem features and competencies activated. This study contributes to the field of computational thinking education by offering a tool for evaluating and revising existing problems to activate specific skills and for assisting in designing new problems that target the development of particular competencies. The results of this study may be of interest to researchers and educators working in computational thinking education.

Published
2024

16. Quantum-enhanced sensing of axion dark matter with a transmon-based single microwave photon counter

Author

Braggio, C., Balembois, L., Di Vora, R., Wang, Z., Travesedo, J., Pallegoix, L., Carugno, G., Ortolan, A., Ruoso, G., Gambardella, U., D'Agostino, D., Bertet, P., and Flurin, E.

Subjects
Quantum Physics, High Energy Physics - Experiment
Abstract

We report an axion dark matter search with a haloscope equipped with a microwave photon counter. The haloscope is a tunable high quality factor 3-dimensional microwave cavity placed in a magnetic field. The photon counter, operated cyclically, maps an incoming microwave photon onto the state of a superconducting transmon qubit. The measurement protocol continuously monitors the power emitted by the haloscope cavity as well as the dark count background, and enables tuning of the cavity frequency to probe different axion masses. With this apparatus we enhance by a factor 20 the search speed that can be reached with quantum-limited linear amplifiers, and set a new standard for probing the existence of axions with resonant detectors.

Published
2024

17. A prenatal skin atlas reveals immune regulation of human skin morphogenesis

Author

Gopee, Nusayhah Hudaa, Winheim, Elena, Olabi, Bayanne, Admane, Chloe, Foster, April Rose, Huang, Ni, Botting, Rachel A., Torabi, Fereshteh, Sumanaweera, Dinithi, Le, Anh Phuong, Kim, Jin, Verger, Luca, Stephenson, Emily, Adão, Diana, Ganier, Clarisse, Gim, Kelly Y., Serdy, Sara A., Deakin, CiCi, Goh, Issac, Steele, Lloyd, Annusver, Karl, Miah, Mohi-Uddin, Tun, Win Min, Moghimi, Pejvak, Kwakwa, Kwasi Amoako, Li, Tong, Basurto Lozada, Daniela, Rumney, Ben, Tudor, Catherine L., Roberts, Kenny, Chipampe, Nana-Jane, Sidhpura, Keval, Englebert, Justin, Jardine, Laura, Reynolds, Gary, Rose, Antony, Rowe, Vicky, Pritchard, Sophie, Mulas, Ilaria, Fletcher, James, Popescu, Dorin-Mirel, Poyner, Elizabeth, Dubois, Anna, Guy, Alyson, Filby, Andrew, Lisgo, Steven, Barker, Roger A., Glass, Ian A., Park, Jong-Eun, Vento-Tormo, Roser, Nikolova, Marina Tsvetomilova, He, Peng, Lawrence, John E. G., Moore, Josh, Ballereau, Stephane, Hale, Christine B., Shanmugiah, Vijaya, Horsfall, David, Rajan, Neil, McGrath, John A., O’Toole, Edel A., Treutlein, Barbara, Bayraktar, Omer, Kasper, Maria, Progatzky, Fränze, Mazin, Pavel, Lee, Jiyoon, Gambardella, Laure, Koehler, Karl R., Teichmann, Sarah A., and Haniffa, Muzlifah

Published
2024
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19. Search for Axion dark matter with the QUAX-LNF tunable haloscope

Author

Rettaroli, A., Alesini, D., Babusci, D., Braggio, C., Carugno, G., D'Agostino, D., D'Elia, A., Di Gioacchino, D., Di Vora, R., Falferi, P., Gambardella, U., Gardikiotis, A., Gatti, C., Iannone, G., Ligi, C., Lombardi, A., Maccarrone, G., Ortolan, A., Ruoso, G., Tocci, S., and Vidali, G.

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment
Abstract

We report the first experimental results obtained with the new haloscope of the QUAX experiment located at Laboratori Nazionali di Frascati of INFN (LNF). The haloscope is composed of a OFHC Cu resonant cavity cooled down to about 30 mK and immersed in a magnetic field of 8 T. The cavity frequency was varied in a 6 MHz range between 8.831496 and 8.83803 GHz. This corresponds to a previously unprobed mass range between 36.52413 and 36.5511 $\mu$eV. We don't observe any excess in the power spectrum and set limits on the axion-photon coupling in this mass range down to $g_{a\gamma\gamma} < 0.861 \times 10^{-13}$ GeV$^{-1}$ with the confidence level set at $90\%$., Comment: Submitted to Physical Review D (https://journals.aps.org/prd/)

Published
2024
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20. Real-World Robot Applications of Foundation Models: A Review

Author

Kawaharazuka, Kento, Matsushima, Tatsuya, Gambardella, Andrew, Guo, Jiaxian, Paxton, Chris, and Zeng, Andy

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Recent developments in foundation models, like Large Language Models (LLMs) and Vision-Language Models (VLMs), trained on extensive data, facilitate flexible application across different tasks and modalities. Their impact spans various fields, including healthcare, education, and robotics. This paper provides an overview of the practical application of foundation models in real-world robotics, with a primary emphasis on the replacement of specific components within existing robot systems. The summary encompasses the perspective of input-output relationships in foundation models, as well as their role in perception, motion planning, and control within the field of robotics. This paper concludes with a discussion of future challenges and implications for practical robot applications.

Published
2024
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21. Deterministic and stochastic aspects of current-induced magnetization reversal in perpendicular nanomagnets

Author

Sala, Giacomo, Meyer, Jan, Flechsig, Anne, Gabriel, Laura, and Gambardella, Pietro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the incubation and transition times that characterize the magnetization switching induced by spin-orbit torques in nanomagnets with perpendicular anisotropy. We present a phenomenological model to interpret the dependence of the incubation time on the amplitude of the voltage pulse and assisting magnetic field and estimate the volume of the seed domain that triggers the switching. Our measurements evidence a correlation between the incubation and transition times that is mediated by the temperature variation during the electric pulse. In addition, we discuss the stochastic distributions of the two times in terms of the energy barriers opposing the nucleation and expansion of the seed domain. We propose two models based on the log-normal and gamma functions to account for the different origin of the variability of the incubation and transition times, which are associated with a single nucleation barrier and multiple pinning sites, respectively.

Published
2024
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22. Orbital Hanle Magnetoresistance in a 3d Transition Metal

Author

Sala, Giacomo, Wang, Hanchen, Legrand, William, and Gambardella, Pietro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The Hanle magnetoresistance is a telltale signature of spin precession in nonmagnetic conductors, in which strong spin-orbit coupling generates edge spin accumulation via the spin Hall effect. Here, we report the existence of a large Hanle magnetoresistance in single layers of Mn with weak spin-orbit coupling, which we attribute to the orbital Hall effect. The simultaneous observation of a sizable Hanle magnetoresistance and vanishing small spin Hall magnetoresistance in BiYIG/Mn bilayers corroborates the orbital origin of both effects. We estimate an orbital Hall angle of 0.016, an orbital relaxation time of 2 ps and diffusion length of the order of 2 nm in disordered Mn. Our findings indicate that current-induced orbital moments are responsible for magnetoresistance effects comparable to or even larger than those determined by spin moments, and provide a tool to investigate nonequilibrium orbital transport phenomena.

Published
2024
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23. Spin-orbit torques and magnetization switching in Gd/Fe multilayers generated by current injection in NiCu alloys

Author

Nasr, Federica, Binda, Federico, Lambert, Charles-Henri, Sala, Giacomo, Noël, Paul, and Gambardella, Pietro

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Light transition metals have recently emerged as a sustainable material class for efficient spin-charge interconversion. We report measurements of current-induced spin-orbit torques generated by Ni$_{1-x}$Cu$_{x}$ alloys in perpendicularly magnetized ferrimagnetic Gd/Fe multilayers. We show that the spin-orbit torque efficiency of Ni$_{1-x}$Cu$_{x}$ increases with the Ni/Cu atomic ratio, reaching values comparable to those of Pt for Ni$_{55}$Cu$_{45}$. Furthermore, we demonstrate magnetization switching of a 20-nm-thick Gd/Fe multilayer with a threshold current that decreases with increasing Ni concentration, similar to the spin-orbit torque efficiency. Our findings show that Ni$_{1-x}$Cu$_{x}$$-$based magnetic heterostructures allow for efficient control of the magnetization by electric currents.

Published
2023
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29. On the range of validity of perturbative models for galaxy clustering and its uncertainty

Author

Gambardella, Giosuè, Biagetti, Matteo, Moretti, Chiara, and Sefusatti, Emiliano

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We explore the reach of analytical models at one-loop in Perturbation Theory (PT) to accurately describe measurements of the galaxy power spectrum from numerical simulations in redshift space. We consider the validity range in terms of three different diagnostics: 1) the goodness of fit; 2) a figure-of-bias quantifying the error in recovering the fiducial value of a cosmological parameter; 3) an internal consistency check of the theoretical model quantifying the running of the model parameters with the scale cut. We consider different sets of measurements corresponding to an increasing cumulative simulation volume in redshift space. For each volume we define a median value and the associated scatter for the largest wavenumber where the model is valid (the $k$-reach of the model). We find, as a rather general result, that the median value of the reach decreases with the simulation volume, as expected since the smaller statistical errors provide a more stringent test for the model. This is true for all the three definitions considered, with the one given in terms of the figure-of-bias providing the most stringent scale cut. More interestingly, we find as well that the error associated with the $k$-reach value is quite large, with a significant probability of being as low as 0.1$\, h \, {\rm Mpc}^{-1}$ (or, more generally, up to 40% smaller than the median) for all the simulation volumes considered. We explore as well the additional information on the growth rate parameter encoded in the power spectrum hexadecapole, compared to the analysis of monopole and quadrupole, as a function of simulation volume. While our analysis is, in many ways, rather simplified, we find that the gain in the determination of the growth rate is quite small in absolute value and well within the statistical error on the corresponding figure of merit., Comment: 7 pages, 3 figures

Published
2023
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30. Spin-orbit torques and spin Hall magnetoresistance generated by twin-free and amorphous Bi0.9Sb0.1 topological insulator films

Author

Binda, Federico, Fedel, Stefano, Alvarado, Santos Francisco, Noël, Paul, and Gambardella, Pietro

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Topological insulators have attracted great interest as generators of spin-orbit torques (SOTs) in spintronic devices. Bi\textsubscript{1-x}Sb\textsubscript{x} is a prominent topological insulator that has a high charge-to-spin conversion efficiency. However, the origin and magnitude of the SOTs induced by current-injection in Bi\textsubscript{1-x}Sb\textsubscript{x} remain controversial. Here we report the investigation of the SOTs and spin Hall magnetoresistance resulting from charge-to-spin conversion in twin-free epitaxial layers of Bi\textsubscript{0.9}Sb\textsubscript{0.1}(0001) coupled to FeCo, and compare it with that of amorphous Bi\textsubscript{0.9}Sb\textsubscript{0.1}. We find a large charge-to-spin conversion efficiency of 1 in the first case and less than 0.1 in the second, confirming crystalline Bi\textsubscript{0.9}Sb\textsubscript{0.1} as a strong spin injector material. The SOTs and spin Hall magnetoresistance are independent of the direction of the electric current, indicating that charge-to-spin conversion in single-crystal Bi\textsubscript{0.9}Sb\textsubscript{0.1}(0001) is isotropic despite the strong anisotropy of the topological surface states. Further, we find that the damping-like SOT has a non-monotonic temperature dependence with a minimum at 20~K. By correlating the SOT with resistivity and weak antilocalization measurements, we conclude that charge-spin conversion occurs via thermally-excited holes from the bulk states above 20~K, and conduction through the isotropic surface states with increasing spin polarization due to decreasing electron-electron scattering below 20~K., Comment: Supporting information at https://doi.org/10.1002/adma.202304905

Published
2023
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31. Reocurrence and weak approximation over geometric global fields

Author

Gambardella, Felipe

Subjects
Mathematics - Number Theory, Mathematics - Algebraic Geometry
Abstract

In this article, we prove a Reocurrence Theorem over function fields of curves over $\mathbf{C}(\! (t)\! )$ and over finite extensions of the Laurent series field $\mathbf{C}(\! (x,y)\! )$. This provides a partial replacement to Chebotarev's Theorem over such fields. A concrete application to the study of weak approximation for homogeneous spaces under $\mathrm{SL}_n$ and with finite stabilizers is given at the end of the article.

Published
2023

32. Best treatment option for secondary mitral regurgitation surgery: a network meta-analysis of randomized and non-randomized controlled studies

Author

Francesco Nappi, Antonio Salsano, Arnaldo Dimagli, Francesco Santini, IvanCarmine Gambardella, and Omar Ellouze

Subjects
Mitral valve, Ischemic mitral regurgitation, restrictive mitral valve repair, Subvalvular papillary muscle replacement, Mitral valve replacement, Metanalysis, Medicine, Science
Abstract

Abstract The objective of this study is to ascertain whether subvalvular papillary muscle repair in conjunction with restrictive mitral valve annuloplasty represents the most efficacious treatment for patients presenting with secondary ischemic mitral regurgitation, as compared to restrictive mitral valve annuloplasty alone and to mitral valve replacement. A network meta-analysis was conducted to investigate outcomes of randomized controlled trials, propensity-matched studies, and observational studies, comparing various treatments for secondary ischemic mitral regurgitation. The average follow-up duration for late mortality was 4.4 years. Coronary artery bypass grafting (CABG) without mitral valve surgery had a late mortality incidence of 3.7%. Restrictive mitral annuloplasty demonstrated a rate of 6.5%, while restrictive mitral annuloplasty + CABG resulted in a rate of 4.1%. Subvalvular papillary muscle repair plus restrictive mitral annuloplasty ± CABG and mitral valve replacement + CABG had rates of 4.4% and 5.1%. SUCRA analysis showed that CABG was the most effective treatment for reducing late mortality (70.0%). This was followed by subvalvular papillary muscle repair plus restrictive mitral annuloplasty with or without CABG (62.4%). The top strategy for decreasing early death, reoperation, and readmission to the hospital for heart failure is subvalvular papillary muscle repair plus restrictive mitral annuloplasty with or without CABG, based on SUCRA probabilities (84.6%, 85.54%, and 86.3%, respectively). Subvalvular papillary muscle repair plus restrictive mitral annuloplasty ± CABG has potential to reduce the risks associated with early mortality, reoperation, and re-hospitalization for heart failure. However, further research is required to substantiate these findings.

Published
2024
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33. Italian report on RARE epilepsies (i‐RARE): A consensus on multidisciplinarity

Author

Antonella Riva, Antonietta Coppola, Francesca Bisulli, Alberto Verrotti, Irene Bagnasco, Maurizio Elia, Francesca Darra, Simona Lattanzi, Stefano Meletti, Angela La Neve, Giancarlo Di Gennaro, Isabella Brambilla, Katia Santoro, Tommaso Prisco, Francesca Macari, Antonio Gambardella, Carlo diBonaventura, Simona Balestrini, Carla Marini, Dario Pruna, Giuseppe Capovilla, Nicola Specchio, Giuseppe Gobbi, Pasquale Striano, and the iRARE Study Group

Subjects
DEEs, Delphi, management, multidisciplinarity, rare epilepsies, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objective Rare and complex epilepsies encompass a diverse range of disorders characterized by seizures. We aimed to establish a consensus on key issues related to these conditions through collaboration among experienced neurologists, neuropediatricians, and patient advocacy representatives. Methods Employing a modified Delphi method, a scientific board comprising 20 physicians and 4 patient advocacy representatives synthesized existing literature with their expertise to formulate statements on contentious topics. A final 32‐member expert panel, representing diverse regions of Italy, validated these statements through a two‐round voting process, with consensus defined as an average score ≥7. Results Sixteen statements reached a consensus, emphasizing the necessity for epidemiological studies to ascertain the true prevalence of rare epilepsies. Etiology emerged as a crucial factor influencing therapeutic strategies and outcome prediction, with particular concern regarding prolonged and tonic–clonic seizures. The importance of early implementation of specific drugs and non‐pharmacological interventions in the treatment algorithm for developmental and epileptic encephalopathies (DEEs) was underscored. Multidisciplinary care involving experts with diverse skills was deemed essential, emphasizing non‐seizure outcomes in adolescence and adulthood. Significance This national consensus underscores the imperative for personalized, comprehensive, and multidisciplinary management of rare epilepsies/DEEs. It advocates for increased research, particularly in epidemiology and therapeutic approaches, to inform clinical decision‐making and healthcare policies, ultimately enhancing patients' outcomes. Plain Language Summary The modified Delphi method is broadly used to evaluate debated topics. In this work, we sought the consensus on integrated and social care in epilepsy management. Both representatives of high‐level epilepsy centers and patients' caregivers were directly involved.

Published
2024
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34. Aortic arch registry of type a aortic dissection (AoArch) - rationale, design and definition criteria

Author

Francesco Nappi, Thibaut Schoell, Sanjeet Singh Avtaar Singh, Antonio Salsano, Ibrahim Abdou, Ivancarmine Gambardella, F. Francesco Santini, Antonio Fiore, Luigi Garufi, Pierre Demondion, Pascal Leprince, N. Nicolas Bonnet, and Cristiano Spadaccio

Subjects
Surgery, RD1-811, Anesthesiology, RD78.3-87.3
Abstract

Abstract Background Type A acute aortic dissection (TAAAD) is a deadly condition that demands immediate surgery, because it involves a critically. The mortality and morbidity associated with it are significant, and it is vital that the patient’s conditions and treatment strategies are fully understood to ensure the appropriate management of TAAAD. This study aims to ascertain whether hemiarch repair (HAR) versus extended arch repair (EAR) with or without descending aortic intervention results in better perioperative and late outcomes for patients with TAAAD. Methods Four leading centers of cardiac surgery from two European countries have joined forces to create a groundbreaking multicenter observational registry (AoArch). This study was approved by the institutional review board (IRB 202201173). We conducted a retrospective review (NCT 0591263) of our prospectively maintained database for patients who underwent operative repair of DeBakey type I or type II dissection from January 1, 2005 to March 2024 (NCT 05927090). We will analyze how patient co-morbidities, referral conditions, and surgical strategies involving hemi-arch repair (HAR) and extended arch repair (EAR) impact early and late adverse events. We have developed a procedure urgency algorithm based on the severity of preoperative hemodynamic conditions and malperfusion due to TAAAD, and we will use it to assess the primary clinical outcomes: in-hospital mortality, late mortality, and reoperations on the aorta. We will define secondary outcomes as permanent neurologic deficit, the need for new dialysis, respiratory failure, a composite of major adverse events (myocardial infarction, cerebrovascular accidents, the need for dialysis, or the need for tracheostomy), and a composite of major adverse pulmonary events (intubation over 48 h, pneumonia, reintubation, tracheostomy), and reoperation due to bleeding. Discussion This multicenter registry will definitively determine the prognostic significance of critical preoperative conditions and the efficacy of extended arch interventions and hemiarch repair in reducing the risk of early adverse events after surgery for TAAAD. This registry will provide insights into the long-term durability of different strategies of surgical repair for TAAAD.

Published
2024
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35. Localized Magnetic States of Fe, Co, and Ni Impurities on Alkali Metal Films

Author

Gambardella, P., Dhesi, S. S., Gardonio, Sandra, Grazioli, Cesare, Ohresser, P., and Carbone, Carlo

Subjects
Condensed Matter - Materials Science
Abstract

X-ray absorption spectroscopy (XAS) and x-ray magnetic circular dichroism (XMCD) have been used to study transition metal impurities on K and Na films. The multiplet structure of the XAS spectra indicates that Fe, Co, and Ni have localized atomic ground states with predominantly d7, d8, and d9 character, respectively. XMCD shows that the localized impurity states possess large, atomiclike, magnetic orbital moments that are progressively quenched as clusters are formed. Ni impurities on Na films are found to be nonmagnetic, with a strongly increased d10 character of the impurity state. The results show that the high magnetic moments of transition metals in alkali hosts originate from electron localization.

Published
2023
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38. IL-33 stimulates the anticancer activities of eosinophils through extracellular vesicle-driven reprogramming of tumor cells

Author

Gambardella, Adriana Rosa, Antonucci, Caterina, Zanetti, Cristiana, Noto, Francesco, Andreone, Sara, Vacca, Davide, Pellerito, Valentina, Sicignano, Chiara, Parrottino, Giuseppe, Tirelli, Valentina, Tinari, Antonella, Falchi, Mario, De Ninno, Adele, Businaro, Luca, Loffredo, Stefania, Varricchi, Gilda, Tripodo, Claudio, Afferni, Claudia, Parolini, Isabella, Mattei, Fabrizio, and Schiavoni, Giovanna

Published
2024
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39. Endothelial microRNAs in INOCA patients with diabetes mellitus

Author

Ferrone, Marco, Ciccarelli, Michele, Varzideh, Fahimeh, Kansakar, Urna, Guerra, Germano, Cerasuolo, Federica Andrea, Buonaiuto, Antonietta, Fiordelisi, Antonella, Venga, Enzo, Esposito, Mafalda, Rainone, Antonio, Ricciardi, Roberto, Del Giudice, Carmine, Minicucci, Fabio, Tesorio, Tullio, Visco, Valeria, Iaccarino, Guido, Gambardella, Jessica, Santulli, Gaetano, and Mone, Pasquale

Published
2024
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44. Clinical and epidemiological factors causing longer SARS-CoV 2 viral shedding: the results from the CoviCamp cohort

Author

Grimaldi, Pierantonio, Russo, Antonio, Pisaturo, Mariantonietta, Maggi, Paolo, Allegorico, Enrico, Gentile, Ivan, Sangiovanni, Vincenzo, Rossomando, Annamaria, Pacilio, Rossella, Calabria, Giosuele, Pisapia, Raffaella, Carriero, Canio, Masullo, Alfonso, Manzillo, Elio, Russo, Grazia, Parrella, Roberto, Dell’Aquila, Giuseppina, Gambardella, Michele, Ponticiello, Antonio, Onorato, Lorenzo, and Coppola, Nicola

Published
2024
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45. An Ant Colony System for the Team Orienteering Problem with Time Windows

Author

Montemanni, Roberto and Gambardella, Luca Maria

Subjects
Mathematics - Optimization and Control, Mathematics - Combinatorics
Abstract

This paper discusses a heuristic approach for Team Orienteering Problems with Time Windows. The method we propose takes advantage of a solution model based on a hierarchic generalization of the original problem, which is combined with an Ant Colony System algorithm. Computational results on benchmark instances previously adopted in the literature suggest that the algorithm we propose is effective in practice.

Published
2023

46. Creative Discovery using QD Search

Author

McCormack, Jon, Gambardella, Camilo Cruz, and Krol, Stephen James

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Human-Computer Interaction, J.5, I.2.6
Abstract

In creative design, where aesthetics play a crucial role in determining the quality of outcomes, there are often multiple worthwhile possibilities, rather than a single ``best'' design. This challenge is compounded in the use of computational generative systems, where the sheer number of potential outcomes can be overwhelming. This paper introduces a method that combines evolutionary optimisation with AI-based image classification to perform quality-diversity search, allowing for the creative exploration of complex design spaces. The process begins by randomly sampling the genotype space, followed by mapping the generated phenotypes to a reduced representation of the solution space, as well as evaluating them based on their visual characteristics. This results in an elite group of diverse outcomes that span the solution space. The elite is then progressively updated via sampling and simple mutation. We tested our method on a generative system that produces abstract drawings. The results demonstrate that the system can effectively evolve populations of phenotypes with high aesthetic value and greater visual diversity compared to traditional optimisation-focused evolutionary approaches., Comment: Paper accepted to GECCO 2023 Conference

Published
2023

47. Field-Free Spin-Orbit Torque driven Switching of Perpendicular Magnetic Tunnel Junction through Bending Current

Author

Kateel, Vaishnavi, Krizakova, Viola, Rao, Siddharth, Cai, Kaiming, Gupta, Mohit, Monteiro, Maxwel Gama, Yasin, Farrukh, Sorée, Bart, De Boeck, Johan, Couet, Sebastien, Gambardella, Pietro, Kar, Gouri Sankar, and Garello, Kevin

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

Current-induced spin-orbit torques (SOTs) enable fast and efficient manipulation of the magnetic state of magnetic tunnel junctions (MTJs), making it attractive for memory, in-memory computing, and logic applications. However, the requirement of the external magnetic field to achieve deterministic switching in perpendicular magnetized SOT-MTJs limits its implementation for practical applications. Here, we introduce a field-free switching (FFS) solution for the SOT-MTJ device by shaping the SOT channel to create a "bend" in the SOT current. The resulting bend in the charge current creates a spatially non-uniform spin current, which translates into inhomogeneous SOT on an adjacent magnetic free layer enabling deterministic switching. We demonstrate FFS experimentally on scaled SOT-MTJs at nanosecond time scales. This proposed scheme is scalable, material-agnostic, and readily compatible with wafer-scale manufacturing, thus creating a pathway for developing purely current-driven SOT systems.

Published
2023
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48. Electrically programmable magnetic coupling in an Ising network exploiting solid-state ionic gating

Author

Yun, Chao, Liang, Zhongyu, Hrabec, Aleš, Liu, Zhentao, Huang, Mantao, Wang, Leran, Xiao, Yifei, Fang, Yikun, Li, Wei, Yang, Wenyun, Hou, Yanglong, Yang, Jinbo, Heyderman, Laura J., Gambardella, Pietro, and Luo, Zhaochu

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Two-dimensional arrays of magnetically coupled nanomagnets provide a mesoscopic platform for exploring collective phenomena as well as realizing a broad range of spintronic devices. In particular, the magnetic coupling plays a critical role in determining the nature of the cooperative behaviour and providing new functionalities in nanomagnet-based devices. Here, we create coupled Ising-like nanomagnets in which the coupling between adjacent nanomagnetic regions can be reversibly converted between parallel and antiparallel through solid-state ionic gating. This is achieved with the voltage-control of magnetic anisotropies in a nanosized region where the symmetric exchange interaction favours parallel alignment and the antisymmetric exchange interaction, namely the Dzyaloshinskii-Moriya interaction, favours antiparallel alignment. Applying this concept to a two-dimensional lattice, we demonstrate a voltage-controlled phase transition in artificial spin ices. Furthermore, we achieve an addressable control of the individual couplings and realize an electrically programmable Ising network, which opens up new avenues to design nanomagnet-based logic devices and neuromorphic computers

Published
2023
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49. Search for galactic axions with a traveling wave parametric amplifier

Author

Di Vora, R., Lombardi, A., Ortolan, A., Pengo, R., Ruoso, G., Braggio, C., Carugno, G., Taffarello, L., Cappelli, G., Crescini, N., Esposito, M., Planat, L., Ranadive, A., Roch, N., Alesini, D., Babusci, D., D'Elia, A., Di Gioacchino, D., Gatti, C., Ligi, C., Maccarrone, G., Rettaroli, A., Tocci, S., D'Agostino, D., Gambardella, U., Iannone, G., and Falferi, P.

Subjects
High Energy Physics - Experiment, Physics - Instrumentation and Detectors
Abstract

A traveling wave parametric amplifier has been integrated in the haloscope of the QUAX experiment. A search for dark matter axions has been performed with a high Q dielectric cavity immersed in a 8 T magnetic field and read by a detection chain having a system noise temperature of about 2.1 K at the frequency of 10.353 GHz. Scanning has been conducted by varying the cavity frequency using sapphire rods immersed into the cavity. At multiple operating frequencies, the sensitivity of the instrument was at the level of viable axion models.

Published
2023
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50. Strong lateral exchange coupling and current-induced switching in single-layer ferrimagnetic films with patterned compensation temperature

Author

Liu, Zhentao, Luo, Zhaochu, Shorubalko, Ivan, Vockenhuber, Christof, Heyderman, Laura J., Gambardella, Pietro, and Hrabec, Aleš

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Strong, adjustable magnetic couplings are of great importance to all devices based on magnetic materials. Controlling the coupling between adjacent regions of a single magnetic layer, however, is challenging. In this work, we demonstrate strong exchange-based coupling between arbitrarily shaped regions of a single ferrimagnetic layer. This is achieved by spatially patterning the compensation temperature of the ferrimagnet by either oxidation or He+ irradiation. The coupling originates at the lateral interface between regions with different compensation temperature and scales inversely with their width. We show that this coupling generates large lateral exchange coupling fields and we demonstrate its application to control the switching of magnetically compensated dots with an electric current.

Published
2023
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