Revisions to Looking for references to study $U^p$ and $V^p$ spaces

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edited Apr 3, 2023 at 17:00

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Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005 (The first published paper which uses these spaces; very technical)
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation; historically, it's the first nonlinear problem in which it seems that the $X^{s,b}$ spaces by Bourgain do not work and the use of $U^p-V^p$ seems not easily avoidablesomewhat necessary)
Koch, Tataru, Visan - 2014 (The book; a very nice introductory reference which compares several models; see the first part (Koch's notes); contains most of the arguments from the paper on the KP-II equation in a simplified way)
Koch, Tataru - 2018 (Very detailed (see appendix B), maybe a bit technical; a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written and understandable)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces. I think it is worth having a look at most of thesethe above ones.

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005 (The first published paper which uses these spaces; very technical)
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation; it's the first problem in which it seems that the $X^{s,b}$ spaces by Bourgain do not work and the use of $U^p-V^p$ seems not easily avoidable)
Koch, Tataru, Visan - 2014 (The book; a very nice introductory reference which compares several models; see the first part (Koch's notes))
Koch, Tataru - 2018 (Very detailed (see appendix B), maybe a bit technical; a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces. I think it is worth having a look at most of these.

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005 (The first published paper which uses these spaces; very technical)
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation; historically, it's the first nonlinear problem in which it seems that the $X^{s,b}$ spaces by Bourgain do not work and the use of $U^p-V^p$ seems somewhat necessary)
Koch, Tataru, Visan - 2014 (The book; a very nice introductory reference which compares several models; see the first part (Koch's notes); contains most of the arguments from the paper on the KP-II equation in a simplified way)
Koch, Tataru - 2018 (Very detailed (see appendix B), maybe a bit technical; a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written and understandable)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces. I think it is worth having a look at most of the above ones.

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edited Apr 3, 2023 at 16:55

Lorenzo Pompili

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Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005 (The first published paper which uses these spaces; very technical)
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equationequation; it's the first problem in which it seems that the $X^{s,b}$ spaces by Bourgain do not work and the use of $U^p-V^p$ seems not easily avoidable)
Koch, Tataru, Visan - 2014 (The book; a very nice introductory reference which compares several models; see the first part (Koch's notes))
Koch, Tataru - 2018 (veryVery detailed (see appendix B);, maybe a bit technical; a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces, but these ones are the ones. I think it is worth lookinghaving a look at most of these.

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation)
Koch, Tataru, Visan - 2014 (The book; see the first part (Koch's notes))
Koch, Tataru - 2018 (very detailed (see appendix B); a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces, but these ones are the ones I think it is worth looking at.

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005 (The first published paper which uses these spaces; very technical)
Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)
Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation; it's the first problem in which it seems that the $X^{s,b}$ spaces by Bourgain do not work and the use of $U^p-V^p$ seems not easily avoidable)
Koch, Tataru, Visan - 2014 (The book; a very nice introductory reference which compares several models; see the first part (Koch's notes))
Koch, Tataru - 2018 (Very detailed (see appendix B), maybe a bit technical; a bit more recent than the book)
Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)
PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces. I think it is worth having a look at most of these.

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edited Apr 3, 2023 at 16:49

Lorenzo Pompili

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Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit: there is also this paper of Koch and Tataru that is a bit more recent than the book (see Appendix B for

A list of all the $U^p, V^p$references I know:

Koch, Tataru - 2005

Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)

Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation)

Koch, Tataru, Visan - 2014 (The book; see the first part (Koch's notes))

Koch, Tataru - 2018 (very detailed (see appendix B); a bit more recent than the book)

Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)

PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces), but these ones are the ones I think it is worth looking at.

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit: there is also this paper of Koch and Tataru that is a bit more recent than the book (see Appendix B for the $U^p, V^p$ spaces).

Here is one fairly recent paper of Sebastian Herr (the second author in the paper you linked) and Timothy Candy in which they use $U^p$ and $V^p$ spaces. During a winter school in Obergurgl in 2022, Herr said that paper is a good reference for the $U^p-V^p$ spaces. It is probably worth having a look, although in that case they use the spaces for a nonlinear wave equation, which makes things not that simple as it is of second order in time (unlike the KP-II equation). That is why you will find two distinct adapted function spaces, $U^2_{\pm}$.

The book mentioned by Willie Wong was very helpul to me as it takes the time to explain things in detail; I almost didn't look at the original paper by Hadac, Herr, Koch as the main argument is all contained in that book. I didn't know of this PhD thesis from Scandone's comment, it seems it is quite a valid reference which confronts all the previous ones (it also mention the paper of Candy and Herr).

Edit:

A list of all the references I know:

Koch, Tataru - 2005

Koch, Tataru - 2007 (A priori bounds for the 1D cubic NLS in negative Sobolev spaces; I have seen there are nice heuristics in the explanation of the spaces)

Hadac, Herr, Koch - 2009 (Well... the paper on the KP-II equation)

Koch, Tataru, Visan - 2014 (The book; see the first part (Koch's notes))

Koch, Tataru - 2018 (very detailed (see appendix B); a bit more recent than the book)

Candy, Herr - 2018 (On the division problem for the Wave maps equation; very well-written)

PhD thesis of Andreas Geyer-Schulz - 2019 (It seems a good and detailed reference which compares the previous ones)

There are surely many other papers that make use of these spaces, but these ones are the ones I think it is worth looking at.

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edited Apr 3, 2023 at 7:38

Lorenzo Pompili

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Lorenzo Pompili

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