Citation Style Gallery
The citation style is determined when instantiating the CitationBibliography
, via the style
argument.
The built-in styles are:
style=:numeric
(default): numeric stylestyle=:authoryear
: author-year stylestyle=:alpha
: alphabetic style
Numeric style
This is the default style (style=:numeric
) used throughout the other pages of this documentation, cf. the Syntax examples.
[GoerzQ2022](@cite)
renders as "[2]"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "[15, 16]"[GoerzQ2022](@citet)
renders as "Goerz et al. [2]"[GoerzQ2022](@citep)
renders as "[2]" —@citep
is the same as@cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "[2, Eq. (1)]"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. [2], Eq. (1)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky [2]"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky [2], Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì [7]"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì [7]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "[1, 4–6, and references therein]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro [4], Brif et al. [1], Shapiro and Brumer [5], Koch [6], and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- [1]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [2]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [4]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [5]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [6]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [7]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).
- [15]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [16]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
Author-year style
The author-year style (style=:authoryear
) formats citations with the author name and publication year. This is the citation style used, e.g., in Rev. Mod. Phys. (rmp
option in REVTeX). The bibliography is sorted alphabetically by author name. The default @cite
command is parenthetical (@cite
and @citep
are equivalent) which is different from the authoryear
style in natbib.
[GoerzQ2022](@cite)
renders as "(Goerz et al., 2022)"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "(Fürst et al., 2014; Sola et al., 2018)"[GoerzQ2022](@citet)
renders as "Goerz et al. (2022)"[GoerzQ2022](@citep)
renders as "(Goerz et al., 2022)" —@citep
is the same as@cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "(Goerz et al., 2022; Eq. (1))"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. (2022), Eq. (1)"[GoerzQ2022](@cite*)
renders as "(Goerz, Carrasco and Malinovsky, 2022)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky (2022)"[GoerzQ2022; Eq. (1)](@cite*)
renders as "(Goerz, Carrasco and Malinovsky, 2022; Eq. (1))"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky (2022), Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì (2008)"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì (2008)"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "(Brumer and Shapiro, 2003; Brif et al., 2010; Shapiro and Brumer, 2012; Koch, 2016; and references therein)"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro (2003), Brif et al. (2010), Shapiro and Brumer (2012), Koch (2016), and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- Brif, C.; Chakrabarti, R. and Rabitz, H. (2010). Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008.
- Brumer, P. and Shapiro, M. (2003). Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience).
- Fürst, H. A.; Goerz, M. H.; Poschinger, U. G.; Murphy, M.; Montangero, S.; Calarco, T.; Schmidt-Kaler, F.; Singer, K. and Koch, C. P. (2014). Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007. Special issue on coherent control of complex quantum systems.
- Goerz, M. H.; Carrasco, S. C. and Malinovsky, V. S. (2022). Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871.
- Koch, C. P. (2016). Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001.
- Shapiro, M. and Brumer, P. (2012). Quantum Control of Molecular Processes. Second Edition (Wiley and Sons).
- Sola, I. R.; Chang, B. Y.; Malinovskaya, S. A. and Malinovsky, V. S. (2018). Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by Arimondo, E.; DiMauro, L. F. and Yelin, S. F. (Academic Press); Chapter 3, pp. 151–256.
- von Winckel, G. and Borzì, A. (2008). Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007.
Alphabetic style
The style=:alpha
formats citations and references like :numeric
, except that it uses labels derived from the author names and publication year and sorts the references alphabetically.
[GoerzQ2022](@cite)
renders as "[GCM22]"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "[FGP+14, SCMM18]"[GoerzQ2022](@citet)
renders as "Goerz et al. [GCM22]"[GoerzQ2022](@citep)
renders as "[GCM22]" —@citep
is the same as@cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "[GCM22, Eq. (1)]"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. [GCM22], Eq. (1)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GCM22]"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GCM22], Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì [vWB08]"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì [vWB08]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "[BS03, BCR10, SB12, Koc16, and references therein]". Note that unlike forstyle=:numeric
, the citations are not compressed.[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro [BS03], Brif et al. [BCR10], Shapiro and Brumer [SB12], Koch [Koc16], and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- [BCR10]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [BS03]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [FGP+14]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [GCM22]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [Koc16]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [SB12]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [SCMM18]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
- [vWB08]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).
Note that the :alpha
style is able to automatically disambiguate labels:
- [GBR+07a]
- M. Grace, C. Brif, H. Rabitz, I. A. Walmsley, R. L. Kosut and D. A. Lidar. Optimal control of quantum gates and suppression of decoherence in a system of interacting two-level particles. J. Phys. B 40, S103 (2007), arXiv:quant-ph/0702147.
- [GBR+07b]
- M. D. Grace, C. Brif, H. Rabitz, D. A. Lidar, I. A. Walmsley and R. L. Kosut. Fidelity of optimally controlled quantum gates with randomly coupled multiparticle environments. J. Mod. Opt. 54, 2339 (2007), arXiv:0712.2935.
This works because the DocumenterCitations
plugin automatically upgrades style=:alpha
to the internal
DocumenterCitations.AlphaStyle
— Type"Smart" alphabetic citation style (relative to the "dumb" :alpha
).
style = AlphaStyle()
instantiates a style for CitationBibliography
that avoids duplicate labels. Any of the entries that would result in the same label will be disambiguated by appending the suffix "a", "b", etc.
Any bibliography that cites a subset of the given entries
is guaranteed to have unique labels.
Custom styles
In the following, we show two examples for user-defined styles. See the notes on customization on how to generally define a custom style.
Custom style: enumerated author-year
In this example, the :authoryear
style is used, but the references are shown in an enumerated list.
import DocumenterCitations
+Citation Style Gallery · DocumenterCitations.jl Citation Style Gallery
The citation style is determined when instantiating the CitationBibliography
, via the style
argument.
The built-in styles are:
style=:numeric
(default): numeric stylestyle=:authoryear
: author-year stylestyle=:alpha
: alphabetic style
Numeric style
This is the default style (style=:numeric
) used throughout the other pages of this documentation, cf. the Syntax examples.
[GoerzQ2022](@cite)
renders as "[2]"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "[15, 16]"[GoerzQ2022](@citet)
renders as "Goerz et al. [2]"[GoerzQ2022](@citep)
renders as "[2]" — @citep
is the same as @cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "[2, Eq. (1)]"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. [2], Eq. (1)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky [2]"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky [2], Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì [7]"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì [7]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "[1, 4–6, and references therein]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro [4], Brif et al. [1], Shapiro and Brumer [5], Koch [6], and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- [1]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [2]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [4]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [5]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [6]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [7]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).
- [15]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [16]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
Author-year style
The author-year style (style=:authoryear
) formats citations with the author name and publication year. This is the citation style used, e.g., in Rev. Mod. Phys. (rmp
option in REVTeX). The bibliography is sorted alphabetically by author name. The default @cite
command is parenthetical (@cite
and @citep
are equivalent) which is different from the authoryear
style in natbib.
[GoerzQ2022](@cite)
renders as "(Goerz et al., 2022)"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "(Fürst et al., 2014; Sola et al., 2018)"[GoerzQ2022](@citet)
renders as "Goerz et al. (2022)"[GoerzQ2022](@citep)
renders as "(Goerz et al., 2022)" — @citep
is the same as @cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "(Goerz et al., 2022; Eq. (1))"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. (2022), Eq. (1)"[GoerzQ2022](@cite*)
renders as "(Goerz, Carrasco and Malinovsky, 2022)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky (2022)"[GoerzQ2022; Eq. (1)](@cite*)
renders as "(Goerz, Carrasco and Malinovsky, 2022; Eq. (1))"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky (2022), Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì (2008)"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì (2008)"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "(Brumer and Shapiro, 2003; Brif et al., 2010; Shapiro and Brumer, 2012; Koch, 2016; and references therein)"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro (2003), Brif et al. (2010), Shapiro and Brumer (2012), Koch (2016), and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- Brif, C.; Chakrabarti, R. and Rabitz, H. (2010). Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008.
- Brumer, P. and Shapiro, M. (2003). Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience).
- Fürst, H. A.; Goerz, M. H.; Poschinger, U. G.; Murphy, M.; Montangero, S.; Calarco, T.; Schmidt-Kaler, F.; Singer, K. and Koch, C. P. (2014). Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007. Special issue on coherent control of complex quantum systems.
- Goerz, M. H.; Carrasco, S. C. and Malinovsky, V. S. (2022). Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871.
- Koch, C. P. (2016). Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001.
- Shapiro, M. and Brumer, P. (2012). Quantum Control of Molecular Processes. Second Edition (Wiley and Sons).
- Sola, I. R.; Chang, B. Y.; Malinovskaya, S. A. and Malinovsky, V. S. (2018). Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by Arimondo, E.; DiMauro, L. F. and Yelin, S. F. (Academic Press); Chapter 3, pp. 151–256.
- von Winckel, G. and Borzì, A. (2008). Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007.
Alphabetic style
The style=:alpha
formats citations and references like :numeric
, except that it uses labels derived from the author names and publication year and sorts the references alphabetically.
[GoerzQ2022](@cite)
renders as "[GCM22]"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "[FGP+14, SCMM18]"[GoerzQ2022](@citet)
renders as "Goerz et al. [GCM22]"[GoerzQ2022](@citep)
renders as "[GCM22]" — @citep
is the same as @cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "[GCM22, Eq. (1)]"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. [GCM22], Eq. (1)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GCM22]"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GCM22], Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì [vWB08]"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì [vWB08]"[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@cite)
renders as "[BS03, BCR10, SB12, Koc16, and references therein]". Note that unlike for style=:numeric
, the citations are not compressed.[BrumerShapiro2003, BrifNJP2010, Shapiro2012, KochJPCM2016; and references therein](@Citet)
renders as "Brumer and Shapiro [BS03], Brif et al. [BCR10], Shapiro and Brumer [SB12], Koch [Koc16], and references therein"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- [BCR10]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [BS03]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [FGP+14]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [GCM22]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [Koc16]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [SB12]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [SCMM18]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
- [vWB08]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).
Note that the :alpha
style is able to automatically disambiguate labels:
- [GBR+07a]
- M. Grace, C. Brif, H. Rabitz, I. A. Walmsley, R. L. Kosut and D. A. Lidar. Optimal control of quantum gates and suppression of decoherence in a system of interacting two-level particles. J. Phys. B 40, S103 (2007), arXiv:quant-ph/0702147.
- [GBR+07b]
- M. D. Grace, C. Brif, H. Rabitz, D. A. Lidar, I. A. Walmsley and R. L. Kosut. Fidelity of optimally controlled quantum gates with randomly coupled multiparticle environments. J. Mod. Opt. 54, 2339 (2007), arXiv:0712.2935.
This works because the DocumenterCitations
plugin automatically upgrades style=:alpha
to the internal
DocumenterCitations.AlphaStyle
— Type"Smart" alphabetic citation style (relative to the "dumb" :alpha
).
style = AlphaStyle()
instantiates a style for CitationBibliography
that avoids duplicate labels. Any of the entries that would result in the same label will be disambiguated by appending the suffix "a", "b", etc.
Any bibliography that cites a subset of the given entries
is guaranteed to have unique labels.
sourceCustom styles
In the following, we show two examples for user-defined styles. See the notes on customization on how to generally define a custom style.
Custom style: enumerated author-year
In this example, the :authoryear
style is used, but the references are shown in an enumerated list.
import DocumenterCitations
function DocumenterCitations.format_bibliography_reference(
style::Val{:enumauthoryear},
@@ -44,4 +44,4 @@
DocumenterCitations.bib_sorting(::Val{:keylabels}) = :nyt # name, year, title
DocumenterCitations.bib_html_list_style(::Val{:keylabels}) = :dl
-
[GoerzQ2022](@cite)
renders as "[GoerzQ2022]"[FuerstNJP2014,SolaAAMOP2018](@cite)
renders as "[FuerstNJP2014, SolaAAMOP2018]"[GoerzQ2022](@citet)
renders as "Goerz et al. [GoerzQ2022]"[GoerzQ2022](@citep)
renders as "[GoerzQ2022]" — @citep
is the same as @cite
for this style[GoerzQ2022; Eq. (1)](@cite)
renders as "[GoerzQ2022, Eq. (1)]"[GoerzQ2022; Eq. (1)](@citet)
renders as "Goerz et al. [GoerzQ2022], Eq. (1)"[GoerzQ2022](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GoerzQ2022]"[GoerzQ2022; Eq. (1)](@citet*)
renders as "Goerz, Carrasco and Malinovsky [GoerzQ2022], Eq. (1)"[WinckelIP2008](@citet)
renders as "von Winckel and Borzì [WinckelIP2008]"[WinckelIP2008](@Citet)
renders as "Von Winckel and Borzì [WinckelIP2008]"[arbitrary text](@cite GoerzQ2022)
renders as "arbitrary text"
References:
- [BrifNJP2010]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [BrumerShapiro2003]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [FuerstNJP2014]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [GoerzQ2022]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [KochJPCM2016]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [Shapiro2012]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [SolaAAMOP2018]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
- [WinckelIP2008]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).
Settings
This document was generated with Documenter.jl version 1.3.0 on Friday 8 March 2024. Using Julia version 1.10.2.
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References:
- [BrifNJP2010]
- C. Brif, R. Chakrabarti and H. Rabitz. Control of quantum phenomena: past, present and future. New J. Phys. 12, 075008 (2010).
- [BrumerShapiro2003]
- P. Brumer and M. Shapiro. Principles and Applications of the Quantum Control of Molecular Processes (Wiley Interscience, 2003).
- [FuerstNJP2014]
- H. A. Fürst, M. H. Goerz, U. G. Poschinger, M. Murphy, S. Montangero, T. Calarco, F. Schmidt-Kaler, K. Singer and C. P. Koch. Controlling the transport of an ion: Classical and quantum mechanical solutions. New J. Phys. 16, 075007 (2014). Special issue on coherent control of complex quantum systems.
- [GoerzQ2022]
- M. H. Goerz, S. C. Carrasco and V. S. Malinovsky. Quantum Optimal Control via Semi-Automatic Differentiation. Quantum 6, 871 (2022).
- [KochJPCM2016]
- C. P. Koch. Controlling open quantum systems: tools, achievements, and limitations. J. Phys.: Condens. Matter 28, 213001 (2016).
- [Shapiro2012]
- M. Shapiro and P. Brumer. Quantum Control of Molecular Processes. Second Edition (Wiley and Sons, 2012).
- [SolaAAMOP2018]
- I. R. Sola, B. Y. Chang, S. A. Malinovskaya and V. S. Malinovsky. Quantum Control in Multilevel Systems. In: Advances In Atomic, Molecular, and Optical Physics, Vol. 67, edited by E. Arimondo, L. F. DiMauro and S. F. Yelin (Academic Press, 2018); Chapter 3, pp. 151–256.
- [WinckelIP2008]
- G. von Winckel and A. Borzì. Computational techniques for a quantum control problem with H$^1$-cost. Inverse Problems 24, 034007 (2008).