TY - JOUR AB - The coexistence of gate-tunable superconducting, magnetic and topological orders in magic-angle twisted bilayer graphene provides opportunities for the creation of hybrid Josephson junctions. Here we report the fabrication of gate-defined symmetry-broken Josephson junctions in magic-angle twisted bilayer graphene, where the weak link is gate-tuned close to the correlated insulator state with a moiré filling factor of υ = −2. We observe a phase-shifted and asymmetric Fraunhofer pattern with a pronounced magnetic hysteresis. Our theoretical calculations of the junction weak link—with valley polarization and orbital magnetization—explain most of these unconventional features. The effects persist up to the critical temperature of 3.5 K, with magnetic hysteresis observed below 800 mK. We show how the combination of magnetization and its current-induced magnetization switching allows us to realise a programmable zero-field superconducting diode. Our results represent a major advance towards the creation of future superconducting quantum electronic devices. AU - Díez-Mérida, J. AU - Díez-Carlón, A. AU - Yang, S. Y. AU - Xie, Y. M. AU - Gao, X. J. AU - Senior, Jorden L AU - Watanabe, K. AU - Taniguchi, T. AU - Lu, X. AU - Higginbotham, Andrew P AU - Law, K. T. AU - Efetov, Dmitri K. ID - 12913 JF - Nature Communications TI - Symmetry-broken Josephson junctions and superconducting diodes in magic-angle twisted bilayer graphene VL - 14 ER - TY - THES AB - Superconductor-semiconductor heterostructures currently capture a significant amount of research interest and they serve as the physical platform in many proposals towards topological quantum computation. Despite being under extensive investigations, historically using transport techniques, the basic properties of the interface between the superconductor and the semiconductor remain to be understood. In this thesis, two separate studies on the Al-InAs heterostructures are reported with the first focusing on the physics of the material motivated by the emergence of a new phase, the Bogoliubov-Fermi surface. The second focuses on a technological application, a gate-tunable Josephson parametric amplifier. In the first study, we investigate the hypothesized unconventional nature of the induced superconductivity at the interface between the Al thin film and the InAs quantum well. We embed a two-dimensional Al-InAs hybrid system in a resonant microwave circuit allowing measurements of change in inductance. The behaviour of the resonance in a range of temperature and in-plane magnetic field has been studied and compared with the theory of conventional s-wave superconductor and a two-component theory that includes both contribution of the $s$-wave pairing in Al and the intraband $p \pm ip$ pairing in InAs. Measuring the temperature dependence of resonant frequency, no discrepancy is found between data and the conventional theory. We observe the breakdown of superconductivity due to an applied magnetic field which contradicts the conventional theory. In contrast, the data can be captured quantitatively by fitting to a two-component model. We find the evidence of the intraband $p \pm ip$ pairing in the InAs and the emergence of the Bogoliubov-Fermi surfaces due to magnetic field with the characteristic value $B^* = 0.33~\mathrm{T}$. From the fits, the sheet resistance of Al, the carrier density and mobility in InAs are determined. By systematically studying the anisotropy of the circuit response, we find weak anisotropy for $B < B^*$ and increasingly strong anisotropy for $B > B^*$ resulting in a pronounced two-lobe structure in polar plot of frequency versus field angle. Strong resemblance between the field dependence of dissipation and superfluid density hints at a hidden signature of the Bogoliubov-Fermi surface that is burried in the dissipation data. In the second study, we realize a parametric amplifier with a Josephson field effect transistor as the active element. The device's modest construction consists of a gated SNS weak link embedded at the center of a coplanar waveguide resonator. By applying a gate voltage, the resonant frequency is field-effect tunable over a range of 2 GHz. Modelling the JoFET minimally as a parallel RL circuit, the dissipation introduced by the JoFET can be quantitatively related to the gate voltage. We observed gate-tunable Kerr nonlinearity qualitatively in line with expectation. The JoFET amplifier has 20 dB of gain, 4 MHz of instantaneous bandwidth, and a 1dB compression point of -125.5 dBm when operated at a fixed resonant frequency. In general, the signal-to-noise ratio is improved by 5-7 dB when the JoFET amplifier is activated compared. The noise of the measurement chain and insertion loss of relevant circuit elements are calibrated to determine the expected and the real noise performance of the JoFET amplifier. As a quantification of the noise performance, the measured total input-referred noise of the JoFET amplifier is in good agreement with the estimated expectation which takes device loss into account. We found that the noise performance of the device reported in this document approaches one photon of total input-referred added noise which is the quantum limit imposed in nondegenerate parametric amplifier. AU - Phan, Duc T ID - 14547 KW - superconductor-semiconductor KW - superconductivity KW - Al KW - InAs KW - p-wave KW - superconductivity KW - JPA KW - microwave SN - 2663 - 337X TI - Resonant microwave spectroscopy of Al-InAs ER - TY - JOUR AB - We build a parametric amplifier with a Josephson field-effect transistor (JoFET) as the active element. The resonant frequency of the device is field-effect tunable over a range of 2 GHz. The JoFET amplifier has 20 dB of gain, 4 MHz of instantaneous bandwidth, and a 1-dB compression point of -125.5 dBm when operated at a fixed resonance frequency. AU - Phan, Duc T AU - Falthansl-Scheinecker, Paul AU - Mishra, Umang AU - Strickland, W. M. AU - Langone, D. AU - Shabani, J. AU - Higginbotham, Andrew P ID - 13264 IS - 6 JF - Physical Review Applied TI - Gate-tunable superconductor-semiconductor parametric amplifier VL - 19 ER - TY - JOUR AB - Arrays of Josephson junctions are governed by a competition between superconductivity and repulsive Coulomb interactions, and are expected to exhibit diverging low-temperature resistance when interactions exceed a critical level. Here we report a study of the transport and microwave response of Josephson arrays with interactions exceeding this level. Contrary to expectations, we observe that the array resistance drops dramatically as the temperature is decreased—reminiscent of superconducting behaviour—and then saturates at low temperature. Applying a magnetic field, we eventually observe a transition to a highly resistive regime. These observations can be understood within a theoretical picture that accounts for the effect of thermal fluctuations on the insulating phase. On the basis of the agreement between experiment and theory, we suggest that apparent superconductivity in our Josephson arrays arises from melting the zero-temperature insulator. AU - Mukhopadhyay, Soham AU - Senior, Jorden L AU - Saez Mollejo, Jaime AU - Puglia, Denise AU - Zemlicka, Martin AU - Fink, Johannes M AU - Higginbotham, Andrew P ID - 14032 JF - Nature Physics KW - General Physics and Astronomy SN - 1745-2473 TI - Superconductivity from a melted insulator in Josephson junction arrays VL - 19 ER - TY - JOUR AB - Superconducting devices ubiquitously have an excess of broken Cooper pairs, which can hamper their performance. It is widely believed that external radiation is responsible but a study now suggests there must be an additional, unknown source. AU - Higginbotham, Andrew P ID - 10589 JF - Nature Physics KW - superconducting devices KW - superconducting properties and materials SN - 1745-2473 TI - A secret source VL - 18 ER - TY - JOUR AB - Superconductor-semiconductor hybrid devices are at the heart of several proposed approaches to quantum information processing, but their basic properties remain to be understood. We embed a twodimensional Al-InAs hybrid system in a resonant microwave circuit, probing the breakdown of superconductivity due to an applied magnetic field. We find a fingerprint from the two-component nature of the hybrid system, and quantitatively compare with a theory that includes the contribution of intraband p±ip pairing in the InAs, as well as the emergence of Bogoliubov-Fermi surfaces due to magnetic field. Separately resolving the Al and InAs contributions allows us to determine the carrier density and mobility in the InAs. AU - Phan, Duc T AU - Senior, Jorden L AU - Ghazaryan, Areg AU - Hatefipour, M. AU - Strickland, W. M. AU - Shabani, J. AU - Serbyn, Maksym AU - Higginbotham, Andrew P ID - 10851 IS - 10 JF - Physical Review Letters KW - General Physics and Astronomy SN - 0031-9007 TI - Detecting induced p±ip pairing at the Al-InAs interface with a quantum microwave circuit VL - 128 ER - TY - JOUR AB - We present conductance-matrix measurements in long, three-terminal hybrid superconductor-semiconductor nanowires, and compare with theoretical predictions of a magnetic-field-driven, topological quantum phase transition. By examining the nonlocal conductance, we identify the closure of the excitation gap in the bulk of the semiconductor before the emergence of zero-bias peaks, ruling out spurious gap-closure signatures from localized states. We observe that after the gap closes, nonlocal signals and zero-bias peaks fluctuate strongly at both ends, inconsistent with a simple picture of clean topological superconductivity. AU - Puglia, Denise AU - Martinez, E. A. AU - Ménard, G. C. AU - Pöschl, A. AU - Gronin, S. AU - Gardner, G. C. AU - Kallaher, R. AU - Manfra, M. J. AU - Marcus, C. M. AU - Higginbotham, Andrew P AU - Casparis, L. ID - 9570 IS - 23 JF - Physical Review B SN - 24699950 TI - Closing of the induced gap in a hybrid superconductor-semiconductor nanowire VL - 103 ER - TY - GEN AB - Data for the manuscript 'Closing of the Induced Gap in a Hybrid Superconductor-Semiconductor Nanowire' ([2006.01275] Closing of the Induced Gap in a Hybrid Superconductor-Semiconductor Nanowire (arxiv.org)) We upload a pdf with extended data sets, and the raw data for these extended datasets as well. AU - Puglia, Denise AU - Martinez, Esteban AU - Menard, Gerbold AU - Pöschl, Andreas AU - Gronin, Sergei AU - Gardner, Geoffrey AU - Kallaher, Ray AU - Manfra, Michael AU - Marcus, Charles AU - Higginbotham, Andrew P AU - Casparis, Lucas ID - 13080 TI - Data for 'Closing of the Induced Gap in a Hybrid Superconductor-Semiconductor Nanowire ER - TY - GEN AB - Superconductor-semiconductor hybrids are platforms for realizing effective p-wave superconductivity. Spin-orbit coupling, combined with the proximity effect, causes the two-dimensional semiconductor to inherit p±ip intraband pairing, and application of magnetic field can then result in transitions to the normal state, partial Bogoliubov Fermi surfaces, or topological phases with Majorana modes. Experimentally probing the hybrid superconductor-semiconductor interface is challenging due to the shunting effect of the conventional superconductor. Consequently, the nature of induced pairing remains an open question. Here, we use the circuit quantum electrodynamics architecture to probe induced superconductivity in a two dimensional Al-InAs hybrid system. We observe a strong suppression of superfluid density and enhanced dissipation driven by magnetic field, which cannot be accounted for by the depairing theory of an s-wave superconductor. These observations are explained by a picture of independent intraband p±ip superconductors giving way to partial Bogoliubov Fermi surfaces, and allow for the first characterization of key properties of the hybrid superconducting system. AU - Phan, Duc T AU - Senior, Jorden L AU - Ghazaryan, Areg AU - Hatefipour, M. AU - Strickland, W. M. AU - Shabani, J. AU - Serbyn, Maksym AU - Higginbotham, Andrew P ID - 10029 T2 - arXiv TI - Breakdown of induced p±ip pairing in a superconductor-semiconductor hybrid ER - TY - DATA AU - Higginbotham, Andrew P ID - 9636 TI - Data for "Breakdown of induced p ± ip pairing in a superconductor-semiconductor hybrid" ER - TY - JOUR AB - End-to-end correlated bound states are investigated in superconductor-semiconductor hybrid nanowires at zero magnetic field. Peaks in subgap conductance are independently identified from each wire end, and a cross-correlation function is computed that counts end-to-end coincidences, averaging over thousands of subgap features. Strong correlations in a short, 300-nm device are reduced by a factor of 4 in a long, 900-nm device. In addition, subgap conductance distributions are investigated, and correlations between the left and right distributions are identified based on their mutual information. AU - Anselmetti, G. L. R. AU - Martinez, E. A. AU - Ménard, G. C. AU - Puglia, D. AU - Malinowski, F. K. AU - Lee, J. S. AU - Choi, S. AU - Pendharkar, M. AU - Palmstrøm, C. J. AU - Marcus, C. M. AU - Casparis, L. AU - Higginbotham, Andrew P ID - 7145 IS - 20 JF - Physical Review B SN - 2469-9950 TI - End-to-end correlated subgap states in hybrid nanowires VL - 100 ER -