Your search keyword '"Ibberson, Lisa A."' showing total 14 results

1. Non-symmetric Pauli spin blockade in a silicon double quantum dot

Author

Lundberg, Theodor, Ibberson, David J., Li, Jing, Hutin, Louis, Abadillo-Uriel, José C., Filippone, Michele, Bertrand, Benoit, Nunnenkamp, Andreas, Lee, Chang-Min, Stelmashenko, Nadia, Robinson, Jason W. A., Vinet, Maud, Ibberson, Lisa, Niquet, Yann-Michel, and Gonzalez-Zalba, M. Fernando

Published

2024

2. Quantum Dot-Based Parametric Amplifiers

Author

Cochrane, Laurence, Lundberg, Theodor, Ibberson, David J., Ibberson, Lisa, Hutin, Louis, Bertrand, Benoit, Stelmashenko, Nadia, Robinson, Jason W. A., Vinet, Maud, Seshia, Ashwin A., and Gonzalez-Zalba, M. Fernando

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics, Quantum Physics

Abstract

Josephson parametric amplifiers (JPAs) approaching quantum-limited noise performance have been instrumental in enabling high fidelity readout of superconducting qubits and, recently, semiconductor quantum dots (QDs). We propose that the quantum capacitance arising in electronic two-level systems (the dual of Josephson inductance) can provide an alternative dissipation-less non-linear element for parametric amplification. We experimentally demonstrate phase-sensitive parametric amplification using a QD-reservoir electron transition in a CMOS nanowire split-gate transistor embedded in a 1.8~GHz superconducting lumped-element microwave cavity, achieving parametric gains of -3 to +3 dB, limited by Sisyphus dissipation. Using a semi-classical model, we find an optimised design within current technological capabilities could achieve gains and bandwidths comparable to JPAs, while providing complementary specifications with respect to integration in semiconductor platforms or operation at higher magnetic fields., Comment: 7 pages, 4 figures

Published

2021

3. Non-reciprocal Pauli Spin Blockade in a Silicon Double Quantum Dot

Author

Lundberg, Theodor, Ibberson, David J., Li, Jing, Hutin, Louis, Abadillo-Uriel, José C., Filippone, Michele, Bertrand, Benoit, Nunnenkamp, Andreas, Lee, Chang-Min, Stelmashenko, Nadia, Robinson, Jason W. A., Vinet, Maud, Ibberson, Lisa, Niquet, Yann-Michel, and Gonzalez-Zalba, M. Fernando

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Spin qubits in gate-defined silicon quantum dots are receiving increased attention thanks to their potential for large-scale quantum computing. Readout of such spin qubits is done most accurately and scalably via Pauli spin blockade (PSB), however various mechanisms may lift PSB and complicate readout. In this work, we present an experimental observation of a new, highly prevalent PSB-lifting mechanism in a silicon double quantum dot due to incoherent tunneling between different spin manifolds. Through dispersively-detected magnetospectroscopy of the double quantum dot in 16 charge configurations, we find the mechanism to be energy-level selective and non-reciprocal for neighbouring charge configurations. Additionally, using input-output theory we report a large coupling of different electron spin manifolds of 7.90 $\mu$eV, the largest reported to date, indicating an enhanced spin-orbit coupling which may enable all-electrical qubit control., Comment: 12 pages, 10 figures. Minor updates to notation

Published

2021

4. Spin readout of a CMOS quantum dot by gate reflectometry and spin-dependent tunnelling

Author

Ciriano-Tejel, V. N., Fogarty, M. A., Schaal, S., Hutin, L., Bertrand, B., Ibberson, Lisa, Gonzalez-Zalba, M. F., Li, J., Niquet, Y. -M., Vinet, M., and Morton, J. J. L.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics

Abstract

Silicon spin qubits are promising candidates for realising large scale quantum processors, benefitting from a magnetically quiet host material and the prospects of leveraging the mature silicon device fabrication industry. We report the measurement of an electron spin in a singly-occupied gate-defined quantum dot, fabricated using CMOS compatible processes at the 300 mm wafer scale. For readout, we employ spin-dependent tunneling combined with a low-footprint single-lead quantum dot charge sensor, measured using radiofrequency gate reflectometry. We demonstrate spin readout in two devices using this technique, obtaining valley splittings in the range 0.5-0.7 meV using excited state spectroscopy, and measure a maximum electron spin relaxation time ($T_1$) of $9 \pm 3$ s at 1 Tesla. These long lifetimes indicate the silicon nanowire geometry and fabrication processes employed here show a great deal of promise for qubit devices, while the spin-readout method demonstrated here is well-suited to a variety of scalable architectures., Comment: 8 pages, 4 figures, 57 cites. v3: added acknowledges

Published

2020

5. Large dispersive interaction between a CMOS double quantum dot and microwave photons

Author

Ibberson, David J., Lundberg, Theodor, Haigh, James A., Hutin, Louis, Bertrand, Benoit, Barraud, Sylvain, Lee, Chang-Min, Stelmashenko, Nadia A., Oakes, Giovanni A., Cochrane, Laurence, Robinson, Jason W. A., Vinet, Maud, Gonzalez-Zalba, M. Fernando, and Ibberson, Lisa A.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We report fast charge state readout of a double quantum dot in a CMOS split-gate silicon nanowire transistor via the large dispersive interaction with microwave photons in a lumped-element resonator formed by hybrid integration with a superconducting inductor. We achieve a coupling rate $g_0/(2\pi) = 204 \pm 2$ MHz by exploiting the large interdot gate lever arm of an asymmetric split-gate device, $\alpha=0.72$, and by inductively coupling to the resonator to increase its impedance, $Z_\text{r}=560~\Omega$. In the dispersive regime, the large coupling strength at the double quantum dot hybridisation point produces a frequency shift comparable to the resonator linewidth, the optimal setting for maximum state visibility. We exploit this regime to demonstrate rapid dispersive readout of the charge degree of freedom, with a SNR of 3.3 in 50 ns. In the resonant regime, the fast charge decoherence rate precludes reaching the strong coupling regime, but we show a clear route to spin-photon circuit quantum electrodynamics using hybrid CMOS systems., Comment: Accepted manuscript

Published

2020

6. A Spin Quintet in a Silicon Double Quantum Dot: Spin Blockade and Relaxation

Author

Lundberg, Theodor, Li, Jing, Hutin, Louis, Bertrand, Benoit, Ibberson, David J., Lee, Chang-Min, Niegemann, David J., Urdampilleta, Matias, Stelmashenko, Nadia, Meunier, Tristan, Robinson, Jason W. A., Ibberson, Lisa, Vinet, Maud, Niquet, Yann-Michel, and Gonzalez-Zalba, M. Fernando

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Spins in gate-defined silicon quantum dots are promising candidates for implementing large-scale quantum computing. To read the spin state of these qubits, the mechanism that has provided the highest fidelity is spin-to-charge conversion via singlet-triplet spin blockade, which can be detected in-situ using gate-based dispersive sensing. In systems with a complex energy spectrum, like silicon quantum dots, accurately identifying when singlet-triplet blockade occurs is hence of major importance for scalable qubit readout. In this work, we present a description of spin blockade physics in a tunnel-coupled silicon double quantum dot defined in the corners of a split-gate transistor. Using gate-based magnetospectroscopy, we report successive steps of spin blockade and spin blockade lifting involving spin states with total spin angular momentum up to $S=3$. More particularly, we report the formation of a hybridized spin quintet state and show triplet-quintet and quintet-septet spin blockade. This enables studies of the quintet relaxation dynamics from which we find $T_1 \sim 4 ~\mu s$. Finally, we develop a quantum capacitance model that can be applied generally to reconstruct the energy spectrum of a double quantum dot including the spin-dependent tunnel couplings and the energy splitting between different spin manifolds. Our results open for the possibility of using Si CMOS quantum dots as a tuneable platform for studying high-spin systems., Comment: 7 pages, 3 figures

Published

2019

7. Low-temperature tunable radio-frequency resonator for sensitive dispersive readout of nanoelectronic devices

Author

Ibberson, David J., Ibberson, Lisa A., Smithson, Geoff, Haigh, James A., Barraud, Sylvain, and Gonzalez-Zalba, M. Fernando

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We present a sensitive, tunable radio-frequency resonator designed to detect reactive changes in nanoelectronic devices down to dilution refrigerator temperatures. The resonator incorporates GaAs varicap diodes to allow electrical tuning of the resonant frequency and the coupling to the input line. We find a resonant frequency tuning range of 8.4 MHz at 55 mK that increases to 29 MHz at 1.5 K. To assess the impact on performance of different tuning conditions, we connect a quantum dot in a silicon nanowire field-effect transistor to the resonator, and measure changes in the device capacitance caused by cyclic electron tunneling. At 250 mK, we obtain an equivalent charge sensitivity of $43~\mu e / \sqrt{\text{Hz}}$ when the resonator and the line are impedance-matched and show that this sensitivity can be further improved to $31~\mu e / \sqrt{\text{Hz}}$ by re-tuning the resonator. We understand this improvement by using an equivalent circuit model and demonstrate that for maximum sensitivity to capacitance changes, in addition to impedance matching, a high-quality resonator with low parasitic capacitance is desired., Comment: Includes supplementary information

Published

2018

8. Initial presenting manifestations in 16,486 patients with inborn errors of immunity include infections and noninfectious manifestations

Author

Boztug, Kaan, Brunner, Juergen, Demel, Ulrike F., Förster-Waldl, Elisabeth, Gasteiger, Lukas M., Göschl, Lisa, Kojić, Marina, Schroll, Andrea, Seidel, Markus G., Wintergerst, Uwe, Wisgrill, Lukas, Sharapova, Svetlana O., Goffard, Jean-Christophe, Kerre, Tessa, Meyts, Isabelle, Roosens, Fine, Smet, Julie, Haerynck, Filomeen, Eric, Zelimir Pavle, Milenova, Veneta, Gagro, Alenka, Richter, Darko, Chovancova, Zita, Hlavackova, Eva, Litzman, Jiri, Milota, Tomas, Sediva, Anna, Elaziz, Dalia Abd, Alkady, Radwa Salaheldin, El Sayed El Hawary, Rabab, Eldash, Alia S., Galal, Nermeen, Lotfy, Sohilla, Meshaal, Safa S., Reda, Shereen M., Sobh, Ali, Elmarsafy, Aisha, Seppänen, Mikko R.J., Brosselin, Pauline, Courteille, Virginie, De Vergnes, Nathalie, Kracker, Sven, Pergent, Martine, Randrianomenjanahary, Philippe, Ahrenstorf, Gerrit, Albert, Michael H., Ankermann, Tobias, Atschekzei, Faranaz, Baumann, Ulrich, Becker, Benjamin C., Behrends, Uta, Belohradsky, Bernd H., Biegner, Anika-Kerstin, Binder, Nadine, Bode, Sebastian F.N., Boesecke, Christoph, Boetticher, Benedikt, Borte, Michael, Borte, Stephan, Classen, Carl Friedrich, Dirks, Johannes, Dückers, Gregor, El-Helou, Sabine, Ernst, Diana, Fasshauer, Maria, Fecker, Gisela, Felgentreff, Kerstin, Foell, Dirk, Ghosh, Sujal, Girschick, Hermann J., Goldacker, Sigune, Graf, Norbert, Graf, Dagmar, Greil, Johann, Hanitsch, Leif Gunnar, Hauck, Fabian, Heeg, Maximilian, Heine, Sabine I., Henes, Joerg C., Hoenig, Manfred, Holzer, Ursula, Holzinger, Dirk, Horneff, Gerd, Hundsdoerfer, Patrick, Jablonka, Alexandra, Jakoby, Donate, Joean, Oana, Kaiser-Labusch, Petra, Klemann, Christian, Kobbe, Robin, Körholz, Julia, Kramm, Christof M., Krüger, Renate, Landwehr-Kenzel, Sybille, Lehmberg, Kai, Liese, Johannes G., Lippert, Conrad Ferdinand, Maccari, Maria Elena, Masjosthusmann, Katja, Meinhardt, Andrea, Metzler, Markus, Morbach, Henner, Müller, Ingo, Naumann-Bartsch, Nora, Neubert, Jennifer, Niehues, Tim, Peter, Hans-Hartmut, Rieber, Nikolaus, Ritterbusch, Henrike, Rockstroh, Jürgen Kurt, Roesler, Joachim, Schauer, Uwe, Scheible, Raphael, Schmalzing, Marc, Schmidt, Reinhold Ernst, Schneider, Dominik T., Schreiber, Stefan, Schuetz, Catharina, Schulz, Ansgar, Schulze-Koops, Hendrik, Schulze-Sturm, Ulf, Schuster, Volker, Schwaneck, Eva C., Schwarz, Klaus, Schwarze-Zander, Carolynne, Sirin, Mehtap, Skapenko, Alla, Sogkas, Georgios, Sparber-Sauer, Monika, Speckmann, Carsten, Steinmann, Sandra, Stiehler, Sophie, Tenbrock, Klaus, von Bernuth, Horst, Warnatz, Klaus, Wasmuth, Jan-Christian, Weiss, Michael, Witte, Torsten, Wittke, Kirsten, Wittkowski, Helmut, Zeuner, Rainald A., Farmaki, Evangelia, Hatzistilianou, Maria N., Kakkas, Ioannis, Kanariou, Maria G., Kapousouzi, Androniki, Liatsis, Emmanouil, Maggina, Paraskevi, Papadopoulou-Alataki, Efimia, Raptaki, Maria, Speletas, Matthaios, Tantou, Sofia, Goda, Vera, Kriván, Gergely, Marodi, Laszlo, Abolhassani, Hassan, Aghamohammadi, Asghar, Rezaei, Nima, Feighery, Conleth, Leahy, Timothy Ronan, Ryan, Paul, Batzir, Nurit Assia, Garty, Ben Zion, Tamary, Hannah, Aiuti, Alessandro, Amodio, Donato, Azzari, Chiara, Barzaghi, Federica, Baselli, Lucia A., Cancrini, Caterina, Carrabba, Maria, Cazzaniga, Marco, Cesaro, Simone, Chinello, Matteo, Danieli, Maria Giovanna, Dellepiane, Rosa Maria, Fabio, Giovanna, Gambineri, Eleonora, Lodi, Lorenzo, Lougaris, Vassilios, Marasco, Carolina, Martire, Baldassarre, Marzollo, Antonio, Milito, Cinzia, Moschese, Viviana, Pignata, Claudio, Plebani, Alessandro, Porta, Fulvio, Quinti, Isabella, Ricci, Silvia, Soresina, Annarosa, Tommasini, Alberto, Vacca, Angelo, Vanessa, Clementina, Blažienė, Audra, Sitkauskiene, Brigita, Gowin, Ewelina, Heropolitańska-Pliszka, Edyta, Pietrucha, Barbara, Szaflarska, Anna, Więsik-Szewczyk, Ewa, Wolska-Kuśnierz, Beata, Esteves, Isabel, Faria, Emilia, Marques, Laura Hora, Neves, João Farela, Silva, Susana L., Teixeira, Carla, Pereira da Silva, Sara, Capilna, Brindusa Ruxandra, Guseva, Marina N., Shcherbina, Anna, Bobcakova, Anna, Ciznar, Peter, Gabzdilova, Juliana, Jesenak, Milos, Kapustova, Lenka, Orosova, Jaroslava, Petrovicova, Otilia, Raffac, Stefan, Kopač, Peter, Allende, Luis M., Antolí, Arnau, Blanch, Gemma Rocamora, Carbone, Javier, Dieli-Crimi, Romina, Garcia-Prat, Marina, Gil-Herrera, Juana, Gonzalez-Granado, Luis Ignacio, Agulló, Pilar Llobet, Olbrich, Peter, Parra-Martínez, Alba, Paz-Artal, Estela, Pleguezuelo, Daniel E., Rodríguez, Nerea Salmón, Sánchez-Ramón, Silvia, Santos-Pérez, Juan Luis, Solanich, Xavier, Soler-Palacin, Pere, González-Amores, Miriam, Ekwall, Olov, Fasth, Anders, Bitzenhofer-Grüber, Michaela, Candotti, Fabio, Dimitriou, Florentia, Heininger, Ulrich, Holbro, Andreas, Jandus, Peter, Kolios, Antonios G.A., Marschall, Karin, Schmid, Jana Pachlopnik, Posfay-Barbe, Klara M., Prader, Seraina, Reichenbach, Janine, Steiner, Urs C., Trück, Johannes, Bredius, Robbert G., de Kruijf- Bazen, Suzanne, de Vries, Esther, Henriet, Stefanie S.V., Kuijpers, Taco W., Potjewijd, Judith, Rutgers, Abraham, Stol, Kim, van Aerde, Koen J., Van den Berg, J. Merlijn, van de Ven, Annick A.J.M., Montfrans, Jorisvan, Aydemir, Sezin, Baris, Safa, Dogu, Figen, Ikinciogullari, Aydan, Karakoc-Aydiner, Elif, Kilic, Sara S., Kiykim, Ayca, Kökçü Karadağ, Şefika İlknur, Kutukculer, Necil, Ocak, Suheyla, UNAL, Ekrem, Boyarchuk, Oksana, Hilfanova, Anna, Kostyuchenko, Larysa V., Alachkar, Hana, Arkwright, Peter D., Baxendale, Helen E., Bernatoniene, Jolanta, Coulter, Tanya I., Garcez, Tomaz, Goddard, Sarah, Gompels, Mark M., Grigoriadou, Sofia, Herriot, Richard, Herwadkar, Archana, Huissoon, Aarnoud, Ibberson, Lisa, Nademi, Zoreh, Noorani, Sadia, Parvin, Shahnaz, Steele, Cathal Laurence, Thomas, Moira, Waruiru, Catherine, Yong, Patrick F.K., Bourne, Helen, Thalhammer, Julian, Kindle, Gerhard, Nieters, Alexandra, Rusch, Stephan, Fischer, Alain, Grimbacher, Bodo, Edgar, David, Buckland, Matthew, Mahlaoui, Nizar, and Ehl, Stephan

Published

2021

9. Parametric Amplifiers Based on Quantum Dots

Author

Cochrane, Laurence, primary, Lundberg, Theodor, additional, Ibberson, David J., additional, Ibberson, Lisa A., additional, Hutin, Louis, additional, Bertrand, Benoit, additional, Stelmashenko, Nadia, additional, Robinson, Jason W. A., additional, Vinet, Maud, additional, Seshia, Ashwin A., additional, and Gonzalez-Zalba, M. Fernando, additional

Published

2022

10. Initial presenting manifestations in 16,486 patients with inborn errors of immunity include infections and noninfectious manifestations

Author

Thalhammer, Julian, primary, Kindle, Gerhard, additional, Nieters, Alexandra, additional, Rusch, Stephan, additional, Seppänen, Mikko R.J., additional, Fischer, Alain, additional, Grimbacher, Bodo, additional, Edgar, David, additional, Buckland, Matthew, additional, Mahlaoui, Nizar, additional, Ehl, Stephan, additional, Boztug, Kaan, additional, Brunner, Juergen, additional, Demel, Ulrike F., additional, Förster-Waldl, Elisabeth, additional, Gasteiger, Lukas M., additional, Göschl, Lisa, additional, Kojić, Marina, additional, Schroll, Andrea, additional, Seidel, Markus G., additional, Wintergerst, Uwe, additional, Wisgrill, Lukas, additional, Sharapova, Svetlana O., additional, Goffard, Jean-Christophe, additional, Kerre, Tessa, additional, Meyts, Isabelle, additional, Roosens, Fine, additional, Smet, Julie, additional, Haerynck, Filomeen, additional, Eric, Zelimir Pavle, additional, Milenova, Veneta, additional, Gagro, Alenka, additional, Richter, Darko, additional, Chovancova, Zita, additional, Hlavackova, Eva, additional, Litzman, Jiri, additional, Milota, Tomas, additional, Sediva, Anna, additional, Elaziz, Dalia Abd, additional, Alkady, Radwa Salaheldin, additional, El Sayed El Hawary, Rabab, additional, Eldash, Alia S., additional, Galal, Nermeen, additional, Lotfy, Sohilla, additional, Meshaal, Safa S., additional, Reda, Shereen M., additional, Sobh, Ali, additional, Elmarsafy, Aisha, additional, Brosselin, Pauline, additional, Courteille, Virginie, additional, De Vergnes, Nathalie, additional, Kracker, Sven, additional, Pergent, Martine, additional, Randrianomenjanahary, Philippe, additional, Ahrenstorf, Gerrit, additional, Albert, Michael H., additional, Ankermann, Tobias, additional, Atschekzei, Faranaz, additional, Baumann, Ulrich, additional, Becker, Benjamin C., additional, Behrends, Uta, additional, Belohradsky, Bernd H., additional, Biegner, Anika-Kerstin, additional, Binder, Nadine, additional, Bode, Sebastian F.N., additional, Boesecke, Christoph, additional, Boetticher, Benedikt, additional, Borte, Michael, additional, Borte, Stephan, additional, Classen, Carl Friedrich, additional, Dirks, Johannes, additional, Dückers, Gregor, additional, El-Helou, Sabine, additional, Ernst, Diana, additional, Fasshauer, Maria, additional, Fecker, Gisela, additional, Felgentreff, Kerstin, additional, Foell, Dirk, additional, Ghosh, Sujal, additional, Girschick, Hermann J., additional, Goldacker, Sigune, additional, Graf, Norbert, additional, Graf, Dagmar, additional, Greil, Johann, additional, Hanitsch, Leif Gunnar, additional, Hauck, Fabian, additional, Heeg, Maximilian, additional, Heine, Sabine I., additional, Henes, Joerg C., additional, Hoenig, Manfred, additional, Holzer, Ursula, additional, Holzinger, Dirk, additional, Horneff, Gerd, additional, Hundsdoerfer, Patrick, additional, Jablonka, Alexandra, additional, Jakoby, Donate, additional, Joean, Oana, additional, Kaiser-Labusch, Petra, additional, Klemann, Christian, additional, Kobbe, Robin, additional, Körholz, Julia, additional, Kramm, Christof M., additional, Krüger, Renate, additional, Landwehr-Kenzel, Sybille, additional, Lehmberg, Kai, additional, Liese, Johannes G., additional, Lippert, Conrad Ferdinand, additional, Maccari, Maria Elena, additional, Masjosthusmann, Katja, additional, Meinhardt, Andrea, additional, Metzler, Markus, additional, Morbach, Henner, additional, Müller, Ingo, additional, Naumann-Bartsch, Nora, additional, Neubert, Jennifer, additional, Niehues, Tim, additional, Peter, Hans-Hartmut, additional, Rieber, Nikolaus, additional, Ritterbusch, Henrike, additional, Rockstroh, Jürgen Kurt, additional, Roesler, Joachim, additional, Schauer, Uwe, additional, Scheible, Raphael, additional, Schmalzing, Marc, additional, Schmidt, Reinhold Ernst, additional, Schneider, Dominik T., additional, Schreiber, Stefan, additional, Schuetz, Catharina, additional, Schulz, Ansgar, additional, Schulze-Koops, Hendrik, additional, Schulze-Sturm, Ulf, additional, Schuster, Volker, additional, Schwaneck, Eva C., additional, Schwarz, Klaus, additional, Schwarze-Zander, Carolynne, additional, Sirin, Mehtap, additional, Skapenko, Alla, additional, Sogkas, Georgios, additional, Sparber-Sauer, Monika, additional, Speckmann, Carsten, additional, Steinmann, Sandra, additional, Stiehler, Sophie, additional, Tenbrock, Klaus, additional, von Bernuth, Horst, additional, Warnatz, Klaus, additional, Wasmuth, Jan-Christian, additional, Weiss, Michael, additional, Witte, Torsten, additional, Wittke, Kirsten, additional, Wittkowski, Helmut, additional, Zeuner, Rainald A., additional, Farmaki, Evangelia, additional, Hatzistilianou, Maria N., additional, Kakkas, Ioannis, additional, Kanariou, Maria G., additional, Kapousouzi, Androniki, additional, Liatsis, Emmanouil, additional, Maggina, Paraskevi, additional, Papadopoulou-Alataki, Efimia, additional, Raptaki, Maria, additional, Speletas, Matthaios, additional, Tantou, Sofia, additional, Goda, Vera, additional, Kriván, Gergely, additional, Marodi, Laszlo, additional, Abolhassani, Hassan, additional, Aghamohammadi, Asghar, additional, Rezaei, Nima, additional, Feighery, Conleth, additional, Leahy, Timothy Ronan, additional, Ryan, Paul, additional, Batzir, Nurit Assia, additional, Garty, Ben Zion, additional, Tamary, Hannah, additional, Aiuti, Alessandro, additional, Amodio, Donato, additional, Azzari, Chiara, additional, Barzaghi, Federica, additional, Baselli, Lucia A., additional, Cancrini, Caterina, additional, Carrabba, Maria, additional, Cazzaniga, Marco, additional, Cesaro, Simone, additional, Chinello, Matteo, additional, Danieli, Maria Giovanna, additional, Dellepiane, Rosa Maria, additional, Fabio, Giovanna, additional, Gambineri, Eleonora, additional, Lodi, Lorenzo, additional, Lougaris, Vassilios, additional, Marasco, Carolina, additional, Martire, Baldassarre, additional, Marzollo, Antonio, additional, Milito, Cinzia, additional, Moschese, Viviana, additional, Pignata, Claudio, additional, Plebani, Alessandro, additional, Porta, Fulvio, additional, Quinti, Isabella, additional, Ricci, Silvia, additional, Soresina, Annarosa, additional, Tommasini, Alberto, additional, Vacca, Angelo, additional, Vanessa, Clementina, additional, Blažienė, Audra, additional, Sitkauskiene, Brigita, additional, Gowin, Ewelina, additional, Heropolitańska-Pliszka, Edyta, additional, Pietrucha, Barbara, additional, Szaflarska, Anna, additional, Więsik-Szewczyk, Ewa, additional, Wolska-Kuśnierz, Beata, additional, Esteves, Isabel, additional, Faria, Emilia, additional, Marques, Laura Hora, additional, Neves, João Farela, additional, Silva, Susana L., additional, Teixeira, Carla, additional, Pereira da Silva, Sara, additional, Capilna, Brindusa Ruxandra, additional, Guseva, Marina N., additional, Shcherbina, Anna, additional, Bobcakova, Anna, additional, Ciznar, Peter, additional, Gabzdilova, Juliana, additional, Jesenak, Milos, additional, Kapustova, Lenka, additional, Orosova, Jaroslava, additional, Petrovicova, Otilia, additional, Raffac, Stefan, additional, Kopač, Peter, additional, Allende, Luis M., additional, Antolí, Arnau, additional, Blanch, Gemma Rocamora, additional, Carbone, Javier, additional, Dieli-Crimi, Romina, additional, Garcia-Prat, Marina, additional, Gil-Herrera, Juana, additional, Gonzalez-Granado, Luis Ignacio, additional, Agulló, Pilar Llobet, additional, Olbrich, Peter, additional, Parra-Martínez, Alba, additional, Paz-Artal, Estela, additional, Pleguezuelo, Daniel E., additional, Rodríguez, Nerea Salmón, additional, Sánchez-Ramón, Silvia, additional, Santos-Pérez, Juan Luis, additional, Solanich, Xavier, additional, Soler-Palacin, Pere, additional, González-Amores, Miriam, additional, Ekwall, Olov, additional, Fasth, Anders, additional, Bitzenhofer-Grüber, Michaela, additional, Candotti, Fabio, additional, Dimitriou, Florentia, additional, Heininger, Ulrich, additional, Holbro, Andreas, additional, Jandus, Peter, additional, Kolios, Antonios G.A., additional, Marschall, Karin, additional, Schmid, Jana Pachlopnik, additional, Posfay-Barbe, Klara M., additional, Prader, Seraina, additional, Reichenbach, Janine, additional, Steiner, Urs C., additional, Trück, Johannes, additional, Bredius, Robbert G., additional, de Kruijf- Bazen, Suzanne, additional, de Vries, Esther, additional, Henriet, Stefanie S.V., additional, Kuijpers, Taco W., additional, Potjewijd, Judith, additional, Rutgers, Abraham, additional, Stol, Kim, additional, van Aerde, Koen J., additional, Van den Berg, J. Merlijn, additional, van de Ven, Annick A.J.M., additional, Montfrans, Jorisvan, additional, Aydemir, Sezin, additional, Baris, Safa, additional, Dogu, Figen, additional, Ikinciogullari, Aydan, additional, Karakoc-Aydiner, Elif, additional, Kilic, Sara S., additional, Kiykim, Ayca, additional, Kökçü Karadağ, Şefika İlknur, additional, Kutukculer, Necil, additional, Ocak, Suheyla, additional, UNAL, Ekrem, additional, Boyarchuk, Oksana, additional, Hilfanova, Anna, additional, Kostyuchenko, Larysa V., additional, Alachkar, Hana, additional, Arkwright, Peter D., additional, Baxendale, Helen E., additional, Bernatoniene, Jolanta, additional, Coulter, Tanya I., additional, Garcez, Tomaz, additional, Goddard, Sarah, additional, Gompels, Mark M., additional, Grigoriadou, Sofia, additional, Herriot, Richard, additional, Herwadkar, Archana, additional, Huissoon, Aarnoud, additional, Ibberson, Lisa, additional, Nademi, Zoreh, additional, Noorani, Sadia, additional, Parvin, Shahnaz, additional, Steele, Cathal Laurence, additional, Thomas, Moira, additional, Waruiru, Catherine, additional, Yong, Patrick F.K., additional, and Bourne, Helen, additional

Published

2021

11. Large Dispersive Interaction between a CMOS Double Quantum Dot and Microwave Photons

Author

Ibberson, David J., primary, Lundberg, Theodor, additional, Haigh, James A., additional, Hutin, Louis, additional, Bertrand, Benoit, additional, Barraud, Sylvain, additional, Lee, Chang-Min, additional, Stelmashenko, Nadia A., additional, Oakes, Giovanni A., additional, Cochrane, Laurence, additional, Robinson, Jason W.A., additional, Vinet, Maud, additional, Gonzalez-Zalba, M. Fernando, additional, and Ibberson, Lisa A., additional

Published

2021

12. Spin Readout of a CMOS Quantum Dot by Gate Reflectometry and Spin-Dependent Tunneling

Author

Ciriano-Tejel, Virginia N., primary, Fogarty, Michael A., additional, Schaal, Simon, additional, Hutin, Louis, additional, Bertrand, Benoit, additional, Ibberson, Lisa, additional, Gonzalez-Zalba, M. Fernando, additional, Li, Jing, additional, Niquet, Yann-Michel, additional, Vinet, Maud, additional, and Morton, John J.L., additional

Published

2021

13. Spin Quintet in a Silicon Double Quantum Dot: Spin Blockade and Relaxation

Author

Lundberg, Theodor, primary, Li, Jing, additional, Hutin, Louis, additional, Bertrand, Benoit, additional, Ibberson, David J., additional, Lee, Chang-Min, additional, Niegemann, David J., additional, Urdampilleta, Matias, additional, Stelmashenko, Nadia, additional, Meunier, Tristan, additional, Robinson, Jason W. A., additional, Ibberson, Lisa, additional, Vinet, Maud, additional, Niquet, Yann-Michel, additional, and Gonzalez-Zalba, M. Fernando, additional

Published

2020

14. Low-temperature tunable radio-frequency resonator for sensitive dispersive readout of nanoelectronic devices

Author

Ibberson, David J., primary, Ibberson, Lisa A., additional, Smithson, Geoff, additional, Haigh, James A., additional, Barraud, Sylvain, additional, and Gonzalez-Zalba, M. Fernando, additional

Published

2019