Public Articles
AASTex (v6.1) example article for Authorea
This example manuscript is intended to serve as a tutorial and template for authors to use when writing their own AAS Journal articles with Authorea. The manuscript includes a history of and documents the new features in the previous version, 6.0, as well as the new features in version 6.1. This manuscript includes figure and table examples to illustrate these new features. Authorea features a rich text editor so that you can write in LaTeX, Markdown, or rich text and render directly on the web. Authorea supports and renders the vast majority of LaTeX notation needed for AAS Journal articles. A few features provided by AASTex v6.1. that are not available in Authorea have been listed in this document. Authors are welcome replace the text, tables, figures, and bibliography with their own and submit the resulting manuscript to the AAS Journals peer review system. The first lesson in the tutorial is to remind authors that the AAS Journals, the Astrophysical Journal (ApJ), the Astrophysical Journal Letters (ApJL), and Astronomical Journal (AJ), all have a 250 word limit for the abstract. If you exceed this length the Editorial office will ask you to shorten it.
AASTex (v6.1) example article for Authorea
and 5 collaborators
This example manuscript is intended to serve as a tutorial and template for authors to use when writing their own AAS Journal articles with Authorea. The manuscript includes a history of and documents the new features in the previous version, 6.0, as well as the new features in version 6.1. This manuscript includes figure and table examples to illustrate these new features. Authorea features a rich text editor so that you can write in LaTeX, Markdown, or rich text and render directly on the web. Authorea supports and renders the vast majority of LaTeX notation needed for AAS Journal articles. A few features provided by AASTex v6.1. that are not available in Authorea have been listed in this document. Authors are welcome replace the text, tables, figures, and bibliography with their own and submit the resulting manuscript to the AAS Journals peer review system. The first lesson in the tutorial is to remind authors that the AAS Journals, the Astrophysical Journal (ApJ), the Astrophysical Journal Letters (ApJL), and Astronomical Journal (AJ), all have a 250 word limit for the abstract. If you exceed this length the Editorial office will ask you to shorten it.
AASTex (v6.1) example article for Authorea
This example manuscript is intended to serve as a tutorial and template for authors to use when writing their own AAS Journal articles with Authorea. The manuscript includes a history of and documents the new features in the previous version, 6.0, as well as the new features in version 6.1. This manuscript includes figure and table examples to illustrate these new features. Authorea features a rich text editor so that you can write in LaTeX, Markdown, or rich text and render directly on the web. Authorea supports and renders the vast majority of LaTeX notation needed for AAS Journal articles. A few features provided by AASTex v6.1. that are not available in Authorea have been listed in this document. Authors are welcome replace the text, tables, figures, and bibliography with their own and submit the resulting manuscript to the AAS Journals peer review system. The first lesson in the tutorial is to remind authors that the AAS Journals, the Astrophysical Journal (ApJ), the Astrophysical Journal Letters (ApJL), and Astronomical Journal (AJ), all have a 250 word limit for the abstract. If you exceed this length the Editorial office will ask you to shorten it.
AASTex (v6.1) example article for Authorea
This example manuscript is intended to serve as a tutorial and template for authors to use when writing their own AAS Journal articles with Authorea. The manuscript includes a history of and documents the new features in the previous version, 6.0, as well as the new features in version 6.1. This manuscript includes figure and table examples to illustrate these new features. Authorea features a rich text editor so that you can write in LaTeX, Markdown, or rich text and render directly on the web. Authorea supports and renders the vast majority of LaTeX notation needed for AAS Journal articles. A few features provided by AASTex v6.1. that are not available in Authorea have been listed in this document. Authors are welcome replace the text, tables, figures, and bibliography with their own and submit the resulting manuscript to the AAS Journals peer review system. The first lesson in the tutorial is to remind authors that the AAS Journals, the Astrophysical Journal (ApJ), the Astrophysical Journal Letters (ApJL), and Astronomical Journal (AJ), all have a 250 word limit for the abstract. If you exceed this length the Editorial office will ask you to shorten it.
Tufte-style Handout or Book
OCR-Stats: Robust estimation of mitochondrial respiration activities using Seahorse XF Analyzer
Title
and 3 collaborators
Relevant definitions:
$$minimize\quad \sum_{i = 1}^{6} \sum_{j = 1}^{6} \sum_{k = 1}^{6} \sum_{l = 1}^{6} c_{ij}x_{ij}^{kl} \qquad \left ( i\neq j , k\neq l\right )$$
$$ b_{i}^{kl} = \left\{ \begin{matrix} b^{kl} & i = k \\ b^{kl} & i = l\\ 0 & otherwise \end{matrix}\right. $$
$$\sum_{i = 1}^{6} \left ( \sum_{j = 1}^{6} x_{ij}^{kl} - \sum_{j = 1}^{6} x_{ji}^{kl} = b_{i}^{kl} \right ) \qquad \left ( i\neq j , k\neq l\right )$$
$$\sum_{k = 1}^{6} \sum_{l = 1}^{6} x_{ij}^{kl} \le u_{i,j} \qquad \forall i,j \left ( i\neq j , k\neq l\right )$$
$$ x_{i,j} \ge 0 $$
\begin{gather} $$ \begin{align*} u_{i,j} &= 30 + 2(-1)^i + 3(-1)^j \\ c_{i,j} &= 50 + 10(-1)^{j+i} & i \ne j\\ b_{i,j} &= 10 + 2(-1)^{i+j} & i \ne j \end{align*} $$ \end{gather}
Relevant definitions:
Let xs, t be the amount of drugs bought from supplier s on month t
Let $y_{s,t} = \left\{ \begin{matrix} 1 & \text{if we buy from supplier s on month t}\\ 0 & \text{otherwise} \end{matrix}\right. $
\begin{align*} &\text{cost function}: min \sum_{t=1}^{6}( c_{1,t}*x_{1,t} + c_{2,t}*x_{2,t}+ c_{3,t}*x_{3,t}- 7*E_t)\\ &\text{s.t.}\\ &y_{1,t} + y_{2,t} + y_{3,t} = 1 & t\in \{1, \dots ,6\}\\ &y_{s,t}*d_s \leq x_{s,t} & t\in \{1, \dots ,6\}, s \in \{1,2,3\}\\ &y_{s,t} \leq 1 & t\in \{1, \dots ,6\}, s \in \{1,2,3\}\\ &I_{t} \leq 40 & t\in \{1, \dots ,6\}\\ &I_{t-1} + x_{1,t} + x_{2,t} + x_{3,t} = d_t+I_t + E_t & t\in \{1, \dots ,6\}\\ \end{align*}
\label{P3_Coefficients}
Month t | amp; c1, t | amp; c2, t | amp; c3, t | amp; dt |
---|---|---|---|---|
1 | amp; 15 | amp; 11 | amp; 11 | amp; 99 |
2 | amp; 14 | amp; 12 | amp; 15 | amp; 113 |
3 | amp; 13 | amp; 13 | amp; 11 | amp; 107 |
4 | amp; 12 | amp; 14 | amp; 15 | amp; 121 |
5 | amp; 11 | amp; 15 | amp; 11 | amp; 115 |
6 | amp; 10 | amp; 16 | amp; 15 | amp; 129 |
d1 = 129; d2 = 131, d3 = 129
\label{P3_Solution}
Month t | amp; ys, t | amp; xs, t | amp; It | amp; Et |
---|---|---|---|---|
1 | amp; y3, 1 = 1 | amp; x3, 1 = 129 | amp; I1 = 0 | amp; E1 = 30 |
2 | amp; y2, 2 = 1 | amp; x2, 2 = 131 | amp; I2 = 0 | amp; E2 = 18 |
3 | amp; y3, 3 = 1 | amp; x3, 3 = 129 | amp; I3 = 16 | amp; E3 = 6 |
4 | amp; y1, 4 = 1 | amp; x1, 4 = 131 | amp; I4 = 26 | amp; E4 = 0 |
5 | amp; y3, 5 = 1 | amp; x3, 5 = 129 | amp; I5 = 40 | amp; E5 = 0 |
6 | amp; y1, 6 = 1 | amp; x1, 6 = 131 | amp; I6 = 0 | amp; E6 = 42 |
(All the other xs, t and ys, t not mentioned in the table are 0. )
Title
- δSi is a small area of a true surface, in terms that luminosity goes outside of one side of this surface.
Then we can use that
- δLi = δSσTi4 is the total luminosity of that small area of a true surface
- d is a distance to an “observing” sphere
δLi will be smeared over semi-sphere while producing energy density δfi = δLi/(2πd2).
δLi = δSiσTi4 = 2pid2δfi
At that sphere, total luminosity will be summation over all small true surfaces
L = ∑iδSiσTi4 = 4πR2σT4. And from one side the area of a cell is πR2. Here factor of 4 is justified.
But if that is not a sphere but per say an accretion disk, total produced luminosity on the both sides of the disk is L = 2πRd2σT4 = ∑Ai, cellσT4. So, factor is 2 if you looked from one side, but infinity if one looks and integrated from an edge of the disk.
If an object is a cube, L = 6a2σT4 = ∑Ai, cellσT4. Factor is 6 if one is looking from one side.
Title
Drone | aircraft does not carry a pilot on-board, controlled by ground control station or able to fly autonomously |
RPAS | aircraft does not carry a pilot on-board, remotely controlled by a pilot |
UAV | UAVs does not carry a human operator, uses aerodynamic forces to provide lift, can fly autonomously or be piloted remotely, can be expendable or recoverable, and can carry lethal or nonlethal payloads. |
UAS | All system that encapsulates the aircraft or UAV, the ground-based controller, and the system of communications connecting the two. |
AGU 2017 Abstract: Wavelet Analysis of Tomographic Models: Probing Mantle Heterogeneity across multiple spatial scales
and 2 collaborators
Lecture notes on environmental epidemiology
SIDE CHAIN
and 2 collaborators
An Example Article using AASTex v6.1 (Authorea simplified version)
and 2 collaborators
This example manuscript is intended to serve as a tutorial and template for authors to use when writing their own AAS Journal articles. The manuscript includes a history of and documents the new features in the previous version, 6.0, as well as the new features in version 6.1. This manuscript includes many figure and table examples to illustrate these new features. Information on features not explicitly mentioned in the article can be viewed in the manuscript comments or more extensive online documentation. Authors are welcome replace the text, tables, figures, and bibliography with their own and submit the resulting manuscript to the AAS Journals peer review system. The first lesson in the tutorial is to remind authors that the AAS Journals, the Astrophysical Journal (ApJ), the Astrophysical Journal Letters (ApJL), and Astronomical Journal (AJ), all have a 250 word limit for the abstract. If you exceed this length the Editorial office will ask you to shorten it.
Scholarly Article Template SSRN
MIP2
and 2 collaborators
\(P_{b}=\ P_{c}+\ t_{r}-T\) (1)
\(P_{b}=P_{c}+qP_{c}-gP_{c}=(1+q-g)P_{c}\) (2)
\(m_{11}=\ \propto_{11}t_{11}\) (4)
\(m_{\text{ij}}=\ \propto_{\text{ij}}t_{\text{ij}}\) (5)
Goldener Schnitt und Fibonacci-Folge
The common active site of Class I chelatases
Karate, Friendship, for Everyone
and 1 collaborator
CD4 staining can be observed in the graph below. The use of Phycoerytherin (PE) natural fluorophore is used. As can be seen, the percentage of both CD3+/CD4+ cells within this population is 25.68%.CD4 staining can be observed in the graph below. The use of Phycoerytherin (PE) natural fluorophore is used. As can be seen, the percentage of both CD3+/CD4+ cells within this population is 25.68%.
Scholarly Article
and 1 collaborator
A Culture Sustainable Tool for Regeneration of Chinese Historical Cities: the rehabilitation of Xi’an Walled City
Infertilité féminine : La part du stress. Quel rôle pour l'ostéopathe
Experiments testing Bell’s inequality with local real source