show/hide list of keywords
analysis, bilayer graphene, Bose gas, combinatorics, condensed matter, crystallization, dynamical systems, electron emission, Fermionic hierarchical model, field emission, finite-size criterion, frustration free, gaps, graphene, Haldane-Hubbard model, Heilmann-Lieb model, Kondo effect, Kondo model, monomer-dimer, nematic liquid crystal, non-perturbative effect, Pfaffian formula, photoemission, quantum Hall effect, quantum mechanics, renormalization group, s-d model, Simplified approach to the Bose gas, statistical mechanics
show/hide filtering syntax
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The filter string is a list of filter-words, separated either by ',' or '&&' or '||' which determines which articles are displayed.
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If any part of one of the keywords of an article matches a filter-word, then that article is shown, even if the filter-word only matches a substring of the keyword. For instance "ondens" matches "condensed matter".
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If the filter-word is quoted using single quotes ('), then articles will only match if one of their keywords matches the full filter-word. For example, "'ondens'" does not match "condensed matter", but "'condensed matter'" does.
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It is possible to combine several filter-words using the '&&' and '||' operators. The '&&' operator is a logical "and", while the '||' operator is a logical "or". The filter "word1 && word2" will match articles that match both word1 and word2, whereas "word1 || word2" will match articles that match either word1 or word2. As in boolean algebra, the "and" is distributive over "or", and expressions can be grouped using parentheses. Here is an example: "( condensed matter || renormalization group ) && 'Kondo model'"
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Each of '&&', '||', '(' and ')' must be separated from filter-words by a space ' '.
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Several filters can be combined using the ',' operator. This operator is similar to an "or" operator, but the way matching articles are displayed is different. The filter "filter1 , filter2 , filter3" will display the articles matching any of the filters, but will separate those that match filter1 from those that match filter2, and so forth.
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An empty filter string is equivalent to a ',' separated list of all keywords
statistical mechanics
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[HJ24]: High-fugacity expansion and crystallization in non-sliding hard-core lattice particle models without a tiling constraint
Qidong He, Ian Jauslin, 2024
(published in Journal of Statistical Physics, Volume 191, Number 135, 2024)
pdf, source
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[Ja23c]: Bose-Einstein condensation and the Simplified Approach to interacting Bosons
Ian Jauslin, 2023
pdf, source
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[Ja23b]: Evidence of a liquid phase in interacting Bosons at intermediate densities
Ian Jauslin, 2023
pdf, source
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[Ja23]: The Simplified approach to the Bose gas without translation invariance
Ian Jauslin, 2023
(published in Journal of Statistical Physics, Volume 191, number 88, 2024)
pdf, source
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[Ja22b]: The Hierarchical Graphene model
Ian Jauslin, 2022
pdf, source
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[Ja22]: Review of a Simplified Approach to study the Bose gas at all densities
Ian Jauslin, 2022
(published in The Physics and Mathematics of Elliott Lieb, The 90th anniversary Volume 1, pages 609-635)
pdf, source
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[JL21]: Random translation-invariant Hamiltonians and their spectral gaps
Ian Jauslin, Marius Lemm, 2021
(published in Quantum, volume 6, page 790, 2022)
pdf
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[CHJL20]: A simplified approach to the repulsive Bose gas from low to high densities and its numerical accuracy
Eric A. Carlen, Markus Holzmann, Ian Jauslin, Elliott H. Lieb, 2020
(published in Physical Review A, volume 103, number 053309, 2021)
pdf, source
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[CJL20]: Analysis of a simple equation for the ground state of the Bose gas II: Monotonicity, Convexity and Condensate Fraction
Eric A. Carlen, Ian Jauslin, Elliott H. Lieb, 2020
(published in SIAM Journal on Mathematical Analysis, Volume 53, Number 5, pages 5322-5360, 2021)
pdf, source
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[GJ20]: A Theorem on Ellipses, an Integrable System and a Theorem of Boltzmann
Giovanni Gallavotti, Ian Jauslin, 2020
pdf, source
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[CJL19]: Analysis of a simple equation for the ground state energy of the Bose gas
Eric Carlen, Ian Jauslin, Elliott H. Lieb, 2019
(published in Pure and Applied Analysis, volume 2, issue 3, pages 659-684, 2020)
pdf, source
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[DGJ18]: Plate-nematic phase in three dimensions
Margherita Disertori, Alessandro Giuliani, Ian Jauslin, 2018
(published in Communications in Mathematical Physics, volume 373, issue 1, pp 327-256, 2020)
pdf, source
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[ias17]: Liquid Crystals and the Heilmann-Lieb conjecture
Ian Jauslin, 2017
(published in The Institute Letter (IAS), Fall 2017)
pdf, source
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[iamp18]: Liquid Crystals and the Heilmann-Lieb model
Ian Jauslin, 2018
(published in IAMP News Bulletin, April 2018)
pdf, source
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[JL17c]: Nematic liquid crystal phase in a system of interacting dimers and monomers
Ian Jauslin, Elliott H. Lieb, 2017
(published in Communications in Mathematical Physics, volume 363, issue 3, pp 955-1002, 2018)
pdf, source
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[JL17b]: High-fugacity expansion, Lee-Yang zeros and order-disorder transitions in hard-core lattice systems
Ian Jauslin, Joel L. Lebowitz, 2017
(published in Communications in Mathematical Physics, volume 364, issue 2, pp 655–682, 2018)
pdf, source
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[JL17]: Crystalline ordering and large fugacity expansion for hard core lattice particles
Ian Jauslin, Joel L. Lebowitz, 2017
(published in Journal of Physical Chemistry B, volume 122, number 13, pp 3266-3271, 2017)
pdf, source
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[GJL15]: A Pfaffian formula for monomer-dimer partition functions
Alessandro Giuliani, Ian Jauslin, Elliott H. Lieb, 2015
(published in Journal of Statistical Physics, volume 163, issue 2, pages 211-238, 2016)
pdf, source
Bose gas
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[Ja23c]: Bose-Einstein condensation and the Simplified Approach to interacting Bosons
Ian Jauslin, 2023
pdf, source
-
[Ja23b]: Evidence of a liquid phase in interacting Bosons at intermediate densities
Ian Jauslin, 2023
pdf, source
-
[Ja23]: The Simplified approach to the Bose gas without translation invariance
Ian Jauslin, 2023
(published in Journal of Statistical Physics, Volume 191, number 88, 2024)
pdf, source
-
[Ja22]: Review of a Simplified Approach to study the Bose gas at all densities
Ian Jauslin, 2022
(published in The Physics and Mathematics of Elliott Lieb, The 90th anniversary Volume 1, pages 609-635)
pdf, source
-
[CHJL20]: A simplified approach to the repulsive Bose gas from low to high densities and its numerical accuracy
Eric A. Carlen, Markus Holzmann, Ian Jauslin, Elliott H. Lieb, 2020
(published in Physical Review A, volume 103, number 053309, 2021)
pdf, source
-
[CJL20]: Analysis of a simple equation for the ground state of the Bose gas II: Monotonicity, Convexity and Condensate Fraction
Eric A. Carlen, Ian Jauslin, Elliott H. Lieb, 2020
(published in SIAM Journal on Mathematical Analysis, Volume 53, Number 5, pages 5322-5360, 2021)
pdf, source
-
[CJLL20]: On the convolution inequality f>f*f
Eric A. Carlen, Ian Jauslin, Elliott H. Lieb, Michael Loss, 2020
(published in International Mathematics Research Notices, Volume 2021, Issue 24, pages 18604-18612, 2021)
pdf, source
-
[CJL19]: Analysis of a simple equation for the ground state energy of the Bose gas
Eric Carlen, Ian Jauslin, Elliott H. Lieb, 2019
(published in Pure and Applied Analysis, volume 2, issue 3, pages 659-684, 2020)
pdf, source
Simplified approach to the Bose gas
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[Ja23c]: Bose-Einstein condensation and the Simplified Approach to interacting Bosons
Ian Jauslin, 2023
pdf, source
-
[Ja23b]: Evidence of a liquid phase in interacting Bosons at intermediate densities
Ian Jauslin, 2023
pdf, source
-
[Ja23]: The Simplified approach to the Bose gas without translation invariance
Ian Jauslin, 2023
(published in Journal of Statistical Physics, Volume 191, number 88, 2024)
pdf, source
-
[Ja22]: Review of a Simplified Approach to study the Bose gas at all densities
Ian Jauslin, 2022
(published in The Physics and Mathematics of Elliott Lieb, The 90th anniversary Volume 1, pages 609-635)
pdf, source
-
[CHJL20]: A simplified approach to the repulsive Bose gas from low to high densities and its numerical accuracy
Eric A. Carlen, Markus Holzmann, Ian Jauslin, Elliott H. Lieb, 2020
(published in Physical Review A, volume 103, number 053309, 2021)
pdf, source
-
[CJL20]: Analysis of a simple equation for the ground state of the Bose gas II: Monotonicity, Convexity and Condensate Fraction
Eric A. Carlen, Ian Jauslin, Elliott H. Lieb, 2020
(published in SIAM Journal on Mathematical Analysis, Volume 53, Number 5, pages 5322-5360, 2021)
pdf, source
-
[CJL19]: Analysis of a simple equation for the ground state energy of the Bose gas
Eric Carlen, Ian Jauslin, Elliott H. Lieb, 2019
(published in Pure and Applied Analysis, volume 2, issue 3, pages 659-684, 2020)
pdf, source
renormalization group
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[Ja22b]: The Hierarchical Graphene model
Ian Jauslin, 2022
pdf, source
-
[GJMP16]: Topological phase transitions and universality in the Haldane-Hubbard model
Alessandro Giuliani, Ian Jauslin, Vieri Mastropietro, Marcello Porta, 2016
(published in Physical Review B, volume 94, number 205139, 2016)
pdf
-
[GiJ15]: The ground state construction of bilayer graphene
Alessandro Giuliani, Ian Jauslin, 2015
(published in Reviews in Mathematical Physics, volume 28, issue 8, number 1650018, 2016)
pdf, source
-
[GJ15]: Kondo effect in the hierarchical s-d model
Giovanni Gallavotti, Ian Jauslin, 2015
(This letter is an extension of [BGJ15] to the s-d model)
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1231-1235, 2015)
pdf, source
-
[BGJ15]: Kondo effect in a fermionic hierarchical model
Giuseppe Benfatto, Giovanni Gallavotti, Ian Jauslin, 2015
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1203-1230, 2015)
pdf, source
nematic liquid crystal
-
[DGJ18]: Plate-nematic phase in three dimensions
Margherita Disertori, Alessandro Giuliani, Ian Jauslin, 2018
(published in Communications in Mathematical Physics, volume 373, issue 1, pp 327-256, 2020)
pdf, source
-
[ias17]: Liquid Crystals and the Heilmann-Lieb conjecture
Ian Jauslin, 2017
(published in The Institute Letter (IAS), Fall 2017)
pdf, source
-
[iamp18]: Liquid Crystals and the Heilmann-Lieb model
Ian Jauslin, 2018
(published in IAMP News Bulletin, April 2018)
pdf, source
-
[JL17c]: Nematic liquid crystal phase in a system of interacting dimers and monomers
Ian Jauslin, Elliott H. Lieb, 2017
(published in Communications in Mathematical Physics, volume 363, issue 3, pp 955-1002, 2018)
pdf, source
quantum mechanics
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[CCJL22]: Non-perturbative Solution of the 1d Schrodinger Equation Describing Photoemission from a Sommerfeld model Metal by an Oscillating Field
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2022
(published in Communications in Mathematical Physics, volume 402, pages 2031-2078, 2023)
pdf, source
-
[JL21]: Random translation-invariant Hamiltonians and their spectral gaps
Ian Jauslin, Marius Lemm, 2021
(published in Quantum, volume 6, page 790, 2022)
pdf
-
[CCJL19]: Exact solution of the 1D time-dependent Schrodinger equation for the emission of quasi-free electrons from a flat metal surface by a laser
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2019
(published in Journal of Physics A: Mathematical and Theoretical, volume 53, issue 36, number 365201, 2020)
pdf, source
-
[CCJL18]: Solution of the time dependent Schrodinger equation leading to Fowler-Nordheim field emission
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2018
(published in Journal of Applied Physics, volume 124, number 213104, 2018)
pdf, source
condensed matter
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[Ja22b]: The Hierarchical Graphene model
Ian Jauslin, 2022
pdf, source
-
[GJMP16]: Topological phase transitions and universality in the Haldane-Hubbard model
Alessandro Giuliani, Ian Jauslin, Vieri Mastropietro, Marcello Porta, 2016
(published in Physical Review B, volume 94, number 205139, 2016)
pdf
-
[GiJ15]: The ground state construction of bilayer graphene
Alessandro Giuliani, Ian Jauslin, 2015
(published in Reviews in Mathematical Physics, volume 28, issue 8, number 1650018, 2016)
pdf, source
crystallization
-
[HJ24]: High-fugacity expansion and crystallization in non-sliding hard-core lattice particle models without a tiling constraint
Qidong He, Ian Jauslin, 2024
(published in Journal of Statistical Physics, Volume 191, Number 135, 2024)
pdf, source
-
[JL17b]: High-fugacity expansion, Lee-Yang zeros and order-disorder transitions in hard-core lattice systems
Ian Jauslin, Joel L. Lebowitz, 2017
(published in Communications in Mathematical Physics, volume 364, issue 2, pp 655–682, 2018)
pdf, source
-
[JL17]: Crystalline ordering and large fugacity expansion for hard core lattice particles
Ian Jauslin, Joel L. Lebowitz, 2017
(published in Journal of Physical Chemistry B, volume 122, number 13, pp 3266-3271, 2017)
pdf, source
electron emission
-
[CCJL22]: Non-perturbative Solution of the 1d Schrodinger Equation Describing Photoemission from a Sommerfeld model Metal by an Oscillating Field
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2022
(published in Communications in Mathematical Physics, volume 402, pages 2031-2078, 2023)
pdf, source
-
[CCJL19]: Exact solution of the 1D time-dependent Schrodinger equation for the emission of quasi-free electrons from a flat metal surface by a laser
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2019
(published in Journal of Physics A: Mathematical and Theoretical, volume 53, issue 36, number 365201, 2020)
pdf, source
-
[CCJL18]: Solution of the time dependent Schrodinger equation leading to Fowler-Nordheim field emission
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2018
(published in Journal of Applied Physics, volume 124, number 213104, 2018)
pdf, source
Fermionic hierarchical model
-
[Ja22b]: The Hierarchical Graphene model
Ian Jauslin, 2022
pdf, source
-
[GJ15]: Kondo effect in the hierarchical s-d model
Giovanni Gallavotti, Ian Jauslin, 2015
(This letter is an extension of [BGJ15] to the s-d model)
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1231-1235, 2015)
pdf, source
-
[BGJ15]: Kondo effect in a fermionic hierarchical model
Giuseppe Benfatto, Giovanni Gallavotti, Ian Jauslin, 2015
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1203-1230, 2015)
pdf, source
Heilmann-Lieb model
-
[ias17]: Liquid Crystals and the Heilmann-Lieb conjecture
Ian Jauslin, 2017
(published in The Institute Letter (IAS), Fall 2017)
pdf, source
-
[iamp18]: Liquid Crystals and the Heilmann-Lieb model
Ian Jauslin, 2018
(published in IAMP News Bulletin, April 2018)
pdf, source
-
[JL17c]: Nematic liquid crystal phase in a system of interacting dimers and monomers
Ian Jauslin, Elliott H. Lieb, 2017
(published in Communications in Mathematical Physics, volume 363, issue 3, pp 955-1002, 2018)
pdf, source
graphene
-
[Ja22b]: The Hierarchical Graphene model
Ian Jauslin, 2022
pdf, source
-
[GiJ15]: The ground state construction of bilayer graphene
Alessandro Giuliani, Ian Jauslin, 2015
(published in Reviews in Mathematical Physics, volume 28, issue 8, number 1650018, 2016)
pdf, source
Kondo effect, non-perturbative effect
-
[GJ15]: Kondo effect in the hierarchical s-d model
Giovanni Gallavotti, Ian Jauslin, 2015
(This letter is an extension of [BGJ15] to the s-d model)
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1231-1235, 2015)
pdf, source
-
[BGJ15]: Kondo effect in a fermionic hierarchical model
Giuseppe Benfatto, Giovanni Gallavotti, Ian Jauslin, 2015
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1203-1230, 2015)
pdf, source
photoemission
-
[CCJL22]: Non-perturbative Solution of the 1d Schrodinger Equation Describing Photoemission from a Sommerfeld model Metal by an Oscillating Field
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2022
(published in Communications in Mathematical Physics, volume 402, pages 2031-2078, 2023)
pdf, source
-
[CCJL19]: Exact solution of the 1D time-dependent Schrodinger equation for the emission of quasi-free electrons from a flat metal surface by a laser
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2019
(published in Journal of Physics A: Mathematical and Theoretical, volume 53, issue 36, number 365201, 2020)
pdf, source
analysis
-
[CJLL20]: On the convolution inequality f>f*f
Eric A. Carlen, Ian Jauslin, Elliott H. Lieb, Michael Loss, 2020
(published in International Mathematics Research Notices, Volume 2021, Issue 24, pages 18604-18612, 2021)
pdf, source
bilayer graphene
-
[GiJ15]: The ground state construction of bilayer graphene
Alessandro Giuliani, Ian Jauslin, 2015
(published in Reviews in Mathematical Physics, volume 28, issue 8, number 1650018, 2016)
pdf, source
dynamical systems
-
[GJ20]: A Theorem on Ellipses, an Integrable System and a Theorem of Boltzmann
Giovanni Gallavotti, Ian Jauslin, 2020
pdf, source
field emission
-
[CCJL18]: Solution of the time dependent Schrodinger equation leading to Fowler-Nordheim field emission
Ovidiu Costin, Rodica Costin, Ian Jauslin, Joel L. Lebowitz, 2018
(published in Journal of Applied Physics, volume 124, number 213104, 2018)
pdf, source
finite-size criterion, frustration free, gaps
-
[JL21]: Random translation-invariant Hamiltonians and their spectral gaps
Ian Jauslin, Marius Lemm, 2021
(published in Quantum, volume 6, page 790, 2022)
pdf
Kondo model
-
[BGJ15]: Kondo effect in a fermionic hierarchical model
Giuseppe Benfatto, Giovanni Gallavotti, Ian Jauslin, 2015
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1203-1230, 2015)
pdf, source
combinatorics, monomer-dimer, Pfaffian formula
-
[GJL15]: A Pfaffian formula for monomer-dimer partition functions
Alessandro Giuliani, Ian Jauslin, Elliott H. Lieb, 2015
(published in Journal of Statistical Physics, volume 163, issue 2, pages 211-238, 2016)
pdf, source
Haldane-Hubbard model, quantum Hall effect
-
[GJMP16]: Topological phase transitions and universality in the Haldane-Hubbard model
Alessandro Giuliani, Ian Jauslin, Vieri Mastropietro, Marcello Porta, 2016
(published in Physical Review B, volume 94, number 205139, 2016)
pdf
s-d model
-
[GJ15]: Kondo effect in the hierarchical s-d model
Giovanni Gallavotti, Ian Jauslin, 2015
(This letter is an extension of [BGJ15] to the s-d model)
(published in Journal of Statistical Physics, volume 161, issue 5, pages 1231-1235, 2015)
pdf, source