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Correlated electronic structure Faraday Discussion

17 - 19 July 2024, London, United Kingdom


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Introduction

Welcome

Join us for this edition of the Faraday Discussion series. The Faraday Discussions are unique international discussion meetings that address current and emerging topics at the forefront of the physical sciences.
This meeting is for established and early-career scientists and postgraduate working in the area of electronic structure. It will provide an ideal forum to reflect on where the field is, and the grand challenges which remain to be tackled, in order to extend its applicability to wider communities. On behalf of the organising committee, we look forward to welcoming you to London.

George Booth and Ali Alavi
Co-Chairs

Why attend?

Find out more about Faraday Discussions in the video and FAQ – see useful links above.
 
A unique conference format that prioritises discussion
 
At a Faraday Discussion, the primary research papers written by the speakers are distributed to all participants before the meeting – ensuring that most of the meeting is devoted to discussing the latest research.
 
This provides a genuinely collaborative environment, where discussion and debate are at the foreground. All delegates, not just speakers, are invited to make comments, ask questions, or present complementary or contradictory measurements and calculations.
 
An exciting programme of talks – and more
 
Take part in a well-balanced mix of talks, discussion, poster sessions and informal networking, delivered by our expert events team. You can explore the full programme in the downloadable files above – whether you’re attending in-person or online, every minute provides an opportunity.
 
The conference dinner, included in the registration fee, contains the Marlow Cup ceremony: a unique commemoration of past Faraday Discussion organisers that is sure to encourage further discussions over dinner.
 
In-depth discussion with leaders in the field
 
World-leading and established researchers connect with each other and early-career scientists and postgraduate students to discuss the latest research and drive science forwards. It’s a unique atmosphere – and challenging others to get to the heart of the problem is encouraged!

“I vividly remember chairing a Discussion where an early career researcher asked a phenomenally simple but brilliant question that totally disarmed a highly experienced and celebrated electrochemist. Those few seconds of silence and tension illustrate perfectly the magic of Faraday Discussions at their very best!” 
Professor David Fermin, Faraday Standing Committee on Conferences
 
Your contributions, published and citable
 
A citable record of the discussion is published in the Faraday Discussions journal, alongside the research papers. Questions, comments and remarks become a valuable part of the published scientific conversation, and every delegate can make a major contribution.
 
Discover London
 
The Discussion will take place at Burlington House, right in the very heart of London. Step out to see the sights while you’re here – or stay a few extra days to explore the city and the surrounding area.

Format

Faraday Discussions have a special format where primary research papers written by the speakers are distributed to all participants before the meeting, and most of the meeting is devoted to discussing the papers. All delegates at the meeting, not just speakers, have the opportunity to make comments, ask questions, or present complementary or contradictory measurements and calculations during the discussion sessions. In addition, there is a dedicated poster session where further discussion takes place. The research papers and a record of the discussion are published in the journal Faraday Discussions.

Themes

In electronic structure for realistic systems, we are lucky that the equations governing the observable properties of molecules, materials and their reactions are known, from the nature of their interacting quantum-mechanical constituents. However, these equations are unfortunately insoluble in general, and their approximate, yet accurate and scalable numerical solution has long been sought after. Progress in this field holds the promise of widespread impact in the predictive computational determination of molecular properties, unique insight into reaction pathways and intermediates, the inverse design of materials, and much more. Innovative and emerging methods for the numerical solution to these equations have long outstripped the ability of brute force approaches, with a diversification and combination of approaches key to the developments in the field. These have allowed theoreticians to model ever larger systems, with increasingly reliable accuracies.
However, there are still a growing number of systems where the resolution necessary for predictive accuracy, key insights and the guiding of experimental design still alludes us, particularly in cases where the electronic correlation is strong and the standard approach of density functional theory is uncertain. These arise in an increasingly documented set of cases, ranging from bond-breaking, heterogeneous catalysis, and electronic excitations. We will therefore look towards the prospects and directions in post-mean-field electronic structure theory, discussing some of the main emerging paradigms for realistic electronic structure in both molecular and materials settings for these more demanding electronic structure cases. These directions will be set in the context of outstanding challenges, current limitations and experimental needs in the field, and will be focused into the following four (inter-related) research themes:

Novel perturbative and variational methods for stronger correlations
Perturbation theory and variational principles are two of the most important (arguably even the only) tools that a many-body quantum theorist has at their disposal, with new approaches exploring different functional forms, self-consistent schemes, or partitionings of the problem in different situations.We will discuss the importance and prevalence of stronger correlation in quantum chemistry and ab initio materials, and how this can be well described within current and emerging paradigms. Importantly, there are needs to effectively combine perturbative and variational schemes once a strongly correlated subspace is identified. There are a number of potential issues with existing approaches in this area, and questions remain as to the best approaches in the future. The session will frame the challenge of stronger correlation effects, on which many approaches in the overall programme will rest.

Magnetism and spin physics
Strong spin fluctuations are known to mediate the effective interactions in systems from biological active sites, to molecular magnets, nanoparticles and anti-ferromagnetic materials. At the heart of this problem is a many-body problem of interacting spins, but to what extent this spin problem can be isolated from the rest of the correlated charge dynamics in real systems remains an open question. Does this challenge of spin physics require a different approach to treating the rest of the correlated problem, and are there advantages to particular representations of the problem? We will investigate the challenge of magnetism in correlated electron problems from both a physical and methodological perspective, in cases of large isolated local spin moments, as well as cases where many local moments couple together. Questions as to the scope of strong spin fluctuations in ab initio modelling will be framed in the context of the overall discussions, as well as the challenge of magnetism and spin physics in the wider field.

Stochastic and low-scaling approaches for quantitative accuracy and beyond ground states
New representations and exploitation of structure in the quantum variables of a theory can lead to significant computational benefits which broaden the scope of a method and lower complexity, while retaining a high degree of accuracy for realistic hamiltonians. These build on principles such as locality, sparsity or low-rank of the interacting physics in different domains and representations. Stochastic approaches are growing in prevalence in ab initio applications, as well as increasingly efficient and accurate low-scaling methods to access large system sizes. But what are the frontiers and these approaches, and what are the outstanding challenges as they are pushed to ever larger systems and the corresponding emergent physics? How has the prominence of machine learning in the field changed the prospects of electronic structure methods, and what are the new approaches emerging which can take the applicability of these methods to the next level? These questions will be discussed through the lens of the wider physical challenges which are still outstanding in the field, focussing on the niche of application for each of these methods, and the synergies between them.

Extended and condensed phase systems
Quantum chemical approaches have been known to be dismissed by some as too computationally costly and high-scaling for application to extended systems and the condensed phase. However, we know that this is changing, with the successful application of an increasingly large repertoire of correlated methods in ab initio materials science. However, we have long known that ‘more is different’, and to what extent can we port models designed for molecular systems to the solid state? What new challenges emerge from treating large-scale extended systems, e.g. metals, screening, phase transitions, in challenges which don’t traditionally arise in molecular contexts, and what ramifications does this entail for the methodology which we should apply? What is the ‘value-added’ for explicitly correlated methods in this domain? Furthermore, the shifting emphasis from experimentalists and ‘users’ in the field to quantities such as spectral functions and dynamical response poses additional challenges in these hard to simulate properties. In this session, we will discuss the prospects for adoption of correlated methods and the methodological changes required to get around both the technical challenges, and changing physical phenomena. We will discuss multi-resolution and multi-scale approaches in the field, and how combining different approaches discussed can lead to progress in the field.
tings that address current and emerging topics at the forefront of the physical sciences.
Speakers
Marie-Bernadette Lepetit, Institut Néel, France

A few accademic responsabilities
• Scientific & academic council of the Grenoble University (since 2019)
• Administrative council of the Grenoble University community (2016-2019)
• Hiring comitees for different French universities as well as CNRS (2016-2021), both in Condensed Matter and Quantum Chemistry.
• Director of the Institut Laue Langevin Theory Group (2014-2018, 2022-today)
• Director of the CNRS national research group Materials and Competing Interactions (35 labs, ~450 researchers, 2008-2016)

Research interests 
• Strongly correlated materials
• Magnetism, multiferoicity
• Spin, charge and orbital orders

Electronic correlation
• Correlated ab-initio methods
• Methods and codes developpement
• Deep learning


Frank Neese, Max-Planck-Institut für Kohlenforschung, Germany

Frank Neese received both his Diploma (Biology – 1993) and PH.D (Dr. rer. Nat. – 1997) working with Prof. P. Kroneck at the University of Konstanz. He performed Postdoctoral work at Stanford University with Prof. E. I. Solomon from 1997 to 1999, then returned to Konstanz where he completed his Habilitation in 2001. He joined the Max Planck Institute (MPI) for Bioinorganic Chemistry in 2001 as a group leader, where he directed a research group until accepting the position of Chair of Theoretical Chemistry at the University of Bonn in 2006. In 2008, Neese returned part time to the MPI as one of its rare “Max Planck Fellows” within the Department of Inorganic Chemistry. In 2011, he became Director of the MPI for Chemical Energy Conversion where he was leading an interdisciplinary group that combines spectroscopy and theory in development and application. In 2018, Neese was appointed Director of the Max Planck Institute of Coal Research where he heads the department of Molecular Theory and Spectroscopy as the successor of the late Professor Walter Thiel. He holds honorary professorships at the Universities of Bonn and Duisburg-Essen. In 2008 Neese received the Klung-Wilhelmy Weberbank award, the highest German prize for young chemists in physicists followed by the Gottfried Wilhelm Leibniz Award of the German Science foundation in 2010. In addition, He won numerous national and international awards in (bio-)inorganic and theoretical chemistry including the Schrödinger medal of the World Association of Theoretically Oriented Chemists (2022). Neese is member of various national and international academies including the Northrhine Westfalia Academy of Science (2020), the German National Academy of Sciences (Leopoldina, 2013), The Academia Europaea (2018) and the International Academy of Quantum Molecular Science (2012). Neese served as Editor of the journals PhysChemChemPhys (2011-2014)  and Inorganic Chemistry (2015-2022). In addition, he served on numerous scientific committees including the Central Review panel of the German Science Foundation, the Kuratorium of the German “Fonds der Chemie” and the Fritz-Haber Center in Jerusalem. Neese is the author of more than 700 scientific articles in journals of Chemistry, Biochemistry and Physics. His work focuses on the theory of magnetic spectroscopies (electron paramagnetic resonance, magnetic circular dichroism) and their experimental and theoretical application, local pair natural orbital correlation theories, multi-reference methods, electronic and geometric structure and reactivity of transition metal complexes and metalloenzymes. Frank Neese is the designer and lead author of the ORCA program, (presently the second most widely used quantum chemistry package worldwide with more than 50000 academic users) as well as co-founder of the company FAccTs (2017) that distributes ORCA commercially to industry. 


Markus Reiher, ETH Zurich, Switzerland

Markus Reiher received his PhD in theoretical chemistry from the University of Bielefed in 1998, working with Juergen Hinze. After his habilitation in the group of Bernd Artur Hess at the University of Erlangen, he worked as a private docent in Erlangen in 2003 and at the University of Bonn in 2004. In 2005, he accepted an offer for a professorship in physical chemistry from the University of Jena.

In 2006, he moved to ETH Zurich. His research covers many different areas in theoretical chemistry which range from relativistic quantum chemistry to the development of new electron-correlation theories and smart algorithms for the autonomous exploration of complex chemical reaction networks with automated rolling benchmarking and uncertainty quantification to quantum computing and interactive quantum mechanics. As a dedicated teacher, he is interested in conveying new ways to help students grasp physical and chemical concepts.


  • Garnet Chan (Introductory Lecture) CalTech, United States
  • Francesco Evangelista (Closing remarks) Emory University, United States
  • Timothy C. Berkelbach Columbia University, United States
  • Andreas Grüneis TU Wien, Austria
  • Pierre-Francois Loos Université de Toulouse, France
  • Nicholas Mayhall Virginia Tech, United States
  • Brenda Rubenstein Brown University, United States

Abstract Submission

Oral Abstracts - closed

A full research paper containing new unpublished results always accompanies oral presentations at Faraday Discussions. 

Papers must be submitted by 26 February 2024 and be full research papers with a significant amount of new, unpublished work. The research papers are reviewed upon submission and are sent to all delegates 4 weeks before the meeting so they can be read in advance. At the meeting the presenting author is allowed five minutes to highlight the main points of their paper, and the rest of the time is for discussion. The discussion is recorded and will be published alongside the research paper in the Faraday Discussion Volume. 

Poster Abstracts - closed

Submit your poster abstract by 27 May 2024. Posters are displayed throughout the meeting and a poster session is held on the first evening. The Faraday Division Poster Prize will be awarded to the best poster presented by a student at the conference.

Additional Information 

Authors will be notified of the outcome of the review process within about 6 weeks of the submission deadline. The abstracts should be no longer than one A4 page in portrait layout. Please ensure you provide the details of the presenting author and indicate whether you are submitting an abstract for oral or poster presentation
Registration

Planning your trip

We encourage delegates who are planning to attend events in person to arrange suitable travel and accommodation insurance, which should include cover for the postponement or cancellation of travel caused by regulations and guidelines relating to Covid-19. We also recommend considering flexible travel and accommodation booking options where possible.

In-person registration includes:
  • Attendance at all scientific sessions
  • Attendance at the poster session
  • Refreshments throughout the meeting and lunch on all three days
  • Attendance at the poster drinks reception on 17 July
  • Attendance at the conference dinner on 18 July
  • Access to all journal paper pdf “pre-prints” before the meeting
  • Access to recordings of all scientific sessions post-event
  • ***A copy of the Faraday Discussion journal volume, issued approximately 5 months after the meeting, containing all papers presented at the meeting and accompanying discussion comments.
Please note accommodation is not included in the registration fee.

All prices quoted do not include VAT, which is added during registration at the prevailing rate in the UK
 
Early bird Standard
RSC Member £415 +VAT £465 +VAT
Non-member** £530 +VAT £580 +VAT
Student RSC member £205 +VAT £255 +VAT
Student non-member** £255 +VAT £305 +VAT
Accompanying person £125 +VAT £125 +VAT

Virtual registration includes:
  • Live access to all scientific sessions
  • Access to all journal paper pdf “pre-prints” before the meeting
  • Access to recordings of all scientific sessions post-event
A copy of the Faraday Discussion journal volume can be purchased for less than half price during the registration process. 

All prices quoted do not include VAT, which is added during registration at the prevailing rate in the UK
 
Standard
RSC member £130 +VAT
Non-member** £155 +VAT
Student RSC member £70 +VAT
Student non-member** £95 +VAT

** For non-member registrants, affiliate membership of the Royal Society of Chemistry until the end of 2024 is available, the affiliate membership application will be processed and commence once the registrant has attended the event

Student Delegates 

In order to encourage undergraduate or postgraduate students to attend the Discussion, a reduced conference fee (to include a set of pre-prints but not the final Discussion Volume) is available. This fee applies to those undertaking a full time course for a recognised degree or a diploma at a university or equivalent institution.

***A copy of the Faraday Discussion journal volume may be purchased at less than half price, during the registration process or on site at the meeting.

Accompanying person

If you would like to bring a guest to the conference, this can be done during the registration process. There will be an additional charge which will include all lunches, refreshments and the conference dinner. The fee does not include attendance at any scientific sessions, journal paper pre-prints or the journal volume.

Accessibility 

The Royal Society of Chemistry is keen to encourage and enable as many people as possible to attend our events, to benefit from the networking opportunities and the chance to hear talks from leaders in the field. If you would like to discuss accessibility, please contact us to discuss your requirements so that we can enable your attendance. Please refer also to our Grants for carers, for more information please see the ‘bursaries’

Terms and Conditions for Events run by the Royal Society of Chemistry

Bursaries

Grants for carers

With our Grants for carers, you can apply for up to £1,200 per year to help you attend a chemistry-related meeting, conference or workshop or a professional development event. This money would be used to cover any additional costs you incur, paying for care that you usually provide.  Please visit the website for further information and eligibility criteria.

Accessibility grants

With our Accessibility grants, you can apply for up to £1,200 per year to help with the cost of specific support to attend a chemistry-related meeting, conference, workshop or professional development event. This support might be any form of equipment, service, or other personal expense associated with meeting your access needs.

Researcher Development and Travel Grants

If you are an RSC member and you are one of the following:
  • a PhD student actively undertaking a PhD course in the chemical sciences; 
  • a researcher in the chemical sciences (including post docs, research technicians and research assistants), working in academia, industry or any sector, within 10 years of leaving full time education (at the time of the application deadline).
You can apply for up to £500 to support your participation in this event.

Please note it is not necessary to have confirmation of abstract acceptance before applying for a Researcher Development and Travel Grant and we encourage you to apply as early as possible. 
 
Please see the website for up-to-date information on eligibility, how to apply and submission deadlines.
 
Researcher Development and Travel Grants can be applied for in addition to Grants for Carers and Assistance Grants.
Sponsorship & supporting organisations
There are opportunities available to become a Faraday Discussion sponsor and exhibitor, as well as poster session and abstract book advertising options. A sponsorship menu document is available to download from this page with more details and prices.
 
Please note that exhibition spaces are limited, spaces will be allocated on a first come first served basis.
 
If you would like more information about sponsoring the 2024 Faraday Discussion series, please contact the Commercial Sales Department at the Royal Society of Chemistry on advertising@rsc.org Sponsorship Menu
Venue
The Royal Society of Chemistry

The Royal Society of Chemistry, Burlington House, Piccadilly, London, W1J 0BA, United Kingdom

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