Accurate and efficient ab initio Quantum Chemistry calculations on current and near-term noisy intermediate-scale Quantum Computers for relevant chemical problems

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-PF-EFID: 101062864
EC Contribution
€2,227
Consortium Size
2 orgs
Start Year
2022
Summary

Quantum computing has the potential to provide an exponential speedup compared to classical computers, but the practical implementation is still in its infancy.Two central questions are: (1) in which field the current noisy intermediate-scale quantum (NISQ) hardware can provide benefits compared to classical computers and (2) which methods and algorithms enable this advantage?The aim of this project is to answer these questions by enabling accurate and efficient Quantum Chemistry calculations on current and near-term Quantum Computers for relevant chemical and physical problems. This paves the road to simulate strongly correlated electron systems of high scientific and economical interest, where accurate approaches are needed to understand groundbreaking chemical and physical phenomena, like high-temperature superconductivity, photosynthesis or nitrogen fixation. It will be achieved by developing and implementing novel quantum algorithms based on the combination of the transcorrelated (TC) methodand a complete active space self-consistent field (CASSCF) embedding approach.The TC method will reduce the necessary quantum resources by providing accurate results for a small strongly correlated region already with small basis sets. While CASSCF will allow to target more realistic systems by embedding the correlated region self-consistently in a larger environment, which is efficiently described by inexpensive mean-field approaches.This project has the potential to go beyond the state-of-the-art by: (a) pushing the boundaries of currently possible quantum chemical calculations, allowing further theoretical understanding and practical design of quantum materials and (b) pave the road toward scientific and economical relevance of quantum computing already in the NISQ era.

Consortium (2)

Project Results (11)

Source: CORDIS, the EU research results database.

Publications (8)
Optimizing Variational Quantum Algorithms with qBang: Efficiently Interweaving Metric and Momentum to Navigate Flat Energy Landscapes
Quantum· 2024DOI
David Fitzek; Robert S. Jonsson; Werner Dobrautz; Christian Schäfer
Toward Real Chemical Accuracy on Current Quantum Hardware Through the Transcorrelated Method
Journal of Chemical Theory and Computation· 2024DOI
Werner Dobrautz; Igor O. Sokolov; Ke Liao; Pablo López Ríos; Martin Rahm; Ali Alavi; Ivano Tavernelli
Towards efficient quantum computing for quantum chemistry: reducing circuit complexity with transcorrelated and adaptive ansatz techniques
Faraday Discussions· 2024DOI
Erika Magnusson; Aaron Fitzpatrick; Stefan Knecht; Martin Rahm; Werner Dobrautz
Journal of Chemical Physics
The Journal of Chemical Physics· 2023DOI
J. Philip Haupt; Seyed Mohammadreza Hosseini; Pablo López Ríos; Werner Dobrautz; Aron Cohen; Ali Alavi
Orders of magnitude increased accuracy for quantum many-body problems on quantum computers via an exact transcorrelated method
Physical Review Research· 2023DOI
Igor O. Sokolov, Werner Dobrautz, Hongjun Luo, Ali Alavi, Ivano Tavernelli
Reference-State Error Mitigation: A Strategy for High Accuracy Quantum Computation of Chemistry
Journal of Chemical Theory and Computation· 2023DOI
Phalgun Lolur; Mårten Skogh; Werner Dobrautz; Christopher Warren; Janka Biznárová; Amr Osman; Giovanna Tancredi; Göran Wendin; Jonas Bylander; Martin Rahm
The Electron Density: A Fidelity Witness for Quantum Computation
Chemical Science· 2023DOI
Mårten Skogh; Werner Dobrautz; Phalgun Lolur; Christopher Warren; Janka Biznárová; Amr Osman; Giovanna Tancredi; Jonas Bylander; Martin Rahm
The OpenMolcas Web: A Community-Driven Approach to Advancing Computational Chemistry
Journal of Chemical Theory and Computation· 2023DOI
Li Manni, Giovanni; Fdez. Galván, Ignacio; Alavi, Ali; Aleotti, Flavia; Aquilante, Francesco; Autschbach, Jochen; Avagliano, Davide; Baiardi, Alberto; Bao, Jie J.; Battaglia, Stefano; Birnoschi, Letitia; Blanco-González, Alejandro; Bokarev, Sergey I.; Broer, Ria; Cacciari, Roberto; Calio, Paul B.; Carlson, Rebecca K.; Carvalho Couto, Rafael; Cerdán, Luis; Chibotaru, Liviu F.; Chilton, Nicholas F.; Church, Jonathan Richard; Conti, Irene; Coriani, Sonia; Cuéllar-Zuquin, Juliana; Daoud, Razan E.; Dattani, Nike; Decleva, Piero; de Graaf, Coen; Delcey, Mickaël G.; De Vico, Luca; Dobrautz, Werner; Dong, Sijia S.; Feng, Rulin; Ferré, Nicolas; Filatov(Gulak), Michael; Gagliardi, Laura; Garavelli, Marco; González, Leticia; Guan, Yafu; Guo, Meiyuan; Hennefarth, Matthew R.; Hermes, Matthew R.; Hoyer, Chad E.; Huix-Rotllant, Miquel; Jaiswal, Vishal Kumar; Kaiser, Andy; Kaliakin, Danil S.; Khamesian, Marjan; King, Daniel S.; Kochetov, Vladislav; Krośnicki, Marek; Kumaar, Arpit Arun; Larsson, Ernst D.; Lehtola, Susi; Lepetit, Marie-Bernadette; Lischka, Hans; López Ríos, Pablo; Lundberg, Marcus; Ma, Dongxia; Mai, Sebastian; Marquetand, Philipp; Merritt, Isabella C. D.; Montorsi, Francesco; Mörchen, Maximilian; Nenov, Artur; Nguyen, Vu Ha Anh; Nishimoto, Yoshio; Oakley, Meagan S.; Olivucci, Massimo; Oppel, Markus; Padula, Daniele; Pandharkar, Riddhish; Phung, Quan Manh; Plasser, Felix; Raggi, Gerardo; Rebolini, Elisa; Reiher, Markus; Rivalta, Ivan; Roca-Sanjuán, Daniel; Romig, Thies; Safari, Arta Anushirwan; Sánchez-Mansilla, Aitor; Sand, Andrew M.; Schapiro, Igor; Scott, Thais R.; Segarra-Martí, Javier; Segatta, Francesco; Sergentu, Dumitru-Claudiu; Sharma, Prachi; Shepard, Ron; Shu, Yinan; Staab, Jakob K.; Straatsma, Tjerk P.; Sørensen, Lasse Kragh; Tenorio, Bruno Nunes Cabral; Truhlar, Donald G.; Ungur, Liviu; Vacher, Morgane; Veryazov, Valera; Voß, Torben Arne; Weser, Oskar; Wu, Dihua; Yang, Xuchun; Yarkony, David; Zhou, Chen; Zobel, J. Patrick; Lindh, Roland
Deliverables (2)
Other Results (1)
Periodic Reporting for period 1 - QC-SQUARED (Accurate and efficient ab initio Quantum Chemistry calculations on current and near-term noisy intermediate-scale Quantum Computers for relevant chemical problems)