Citation Analysis – Causal Models for Longitudinal and Panel Data: A Survey

Causal Models for Longitudinal and Panel Data: A Survey
Dmitry Arkhangelsky, Guido Imbens
https://arxiv.org/abs/2311.15458

379

Citation mentions

218

Cited references

Sections

13,266

Words (approx)

References by Citation Intensity

Ordered by composite index (descending). Higher values indicate more intensive citation.

#	Reference	Year	Mentions	Breadth	Sec. Wtd	Share	Composite	Main %
1			9	6	17.0	0.024	1.000	100%
2			5	4	9.0	0.013	1.000	100%
3			5	3	5.5	0.013	1.000	100%
4			6	4	6.0	0.016	1.000	100%
5			7	4	6.5	0.018	1.000	100%
6			5	3	4.0	0.013	1.000	100%
7			5	4	10.0	0.013	1.000	100%
8			6	6	12.0	0.016	1.000	100%
9			8	4	16.0	0.021	1.000	100%
10			6	3	12.0	0.016	1.000	100%
11			5	4	10.0	0.013	1.000	100%
12			6	4	12.0	0.016	1.000	100%
13			5	3	10.0	0.013	1.000	100%
14			4	4	7.0	0.011	0.928	100%
15			4	4	7.0	0.011	0.928	100%
16			4	4	7.0	0.011	0.928	100%
17			4	3	8.0	0.011	0.928	100%
18			4	3	8.0	0.011	0.928	100%
19			4	3	6.5	0.011	0.928	100%
20			4	4	8.0	0.011	0.928	100%
21			6	2	12.0	0.016	0.874	100%
22			3	3	3.0	0.008	0.843	100%
23			4	2	8.0	0.011	0.811	100%
24			4	2	8.0	0.011	0.811	100%
25			3	2	3.0	0.008	0.737	100%
26			3	2	3.0	0.008	0.737	100%
27			3	2	3.0	0.008	0.737	100%
28			3	2	3.0	0.008	0.737	100%
29			3	2	6.0	0.008	0.737	100%
30			3	2	6.0	0.008	0.737	100%
31			3	2	6.0	0.008	0.737	100%
32			3	2	6.0	0.008	0.737	100%
33			3	2	6.0	0.008	0.737	100%
34			2	2	3.0	0.005	0.644	100%
35			2	2	2.5	0.005	0.644	100%
36			2	2	2.5	0.005	0.644	100%
37			2	2	2.5	0.005	0.644	100%
38			2	2	2.5	0.005	0.644	100%
39			2	2	2.5	0.005	0.644	100%
40			2	2	2.5	0.005	0.644	100%
41			2	2	4.0	0.005	0.644	100%
42			2	2	4.0	0.005	0.644	100%
43			2	2	4.0	0.005	0.644	100%
44	Guido Imbens and Yiqing Xu. \newblock Lalonde (self)	1986	2	2	4.0	0.005	0.644	100%
45			2	2	4.0	0.005	0.644	100%
46			2	2	4.0	0.005	0.644	100%
47			2	2	4.0	0.005	0.644	100%
48			2	2	4.0	0.005	0.644	100%
49			2	2	4.0	0.005	0.644	100%
50			2	2	4.0	0.005	0.644	100%
51			2	2	4.0	0.005	0.644	100%
52			2	2	4.0	0.005	0.644	100%
53			2	2	4.0	0.005	0.644	100%
54			2	2	4.0	0.005	0.644	100%
55			2	2	4.0	0.005	0.644	100%
56			2	2	4.0	0.005	0.644	100%
57			2	2	4.0	0.005	0.644	100%
58			2	2	4.0	0.005	0.644	100%
59			2	2	4.0	0.005	0.644	100%
60			3	1	1.5	0.008	0.585	100%
61			3	1	6.0	0.008	0.585	100%
62			3	1	6.0	0.008	0.585	100%
63			2	1	1.0	0.005	0.511	100%
64			2	1	1.0	0.005	0.511	100%
65			2	1	1.0	0.005	0.511	100%
66			2	1	4.0	0.005	0.511	100%
67			2	1	4.0	0.005	0.511	100%
68			2	1	4.0	0.005	0.511	100%
69			2	1	4.0	0.005	0.511	100%
70			2	1	4.0	0.005	0.511	100%
71			2	1	4.0	0.005	0.511	100%
72			2	1	4.0	0.005	0.511	100%
73			2	1	4.0	0.005	0.511	100%
74			2	1	4.0	0.005	0.511	100%
75			1	1	1.0	0.003	0.406	100%
76			1	1	1.0	0.003	0.406	100%
77			1	1	0.5	0.003	0.406	100%
78			1	1	0.5	0.003	0.406	100%
79			1	1	0.5	0.003	0.406	100%
80			1	1	0.5	0.003	0.406	100%
81			1	1	0.5	0.003	0.406	100%
82			1	1	0.5	0.003	0.406	100%
83			1	1	0.5	0.003	0.406	100%
84			1	1	0.5	0.003	0.406	100%
85			1	1	0.5	0.003	0.406	100%
86			1	1	0.5	0.003	0.406	100%
87			1	1	0.5	0.003	0.406	100%
88			1	1	2.0	0.003	0.406	100%
89			1	1	2.0	0.003	0.406	100%
90			1	1	2.0	0.003	0.406	100%
91			1	1	2.0	0.003	0.406	100%
92			1	1	2.0	0.003	0.406	100%
93			1	1	2.0	0.003	0.406	100%
94			1	1	2.0	0.003	0.406	100%
95			1	1	2.0	0.003	0.406	100%
96			1	1	2.0	0.003	0.406	100%
97			1	1	2.0	0.003	0.406	100%
98			1	1	2.0	0.003	0.406	100%
99			1	1	2.0	0.003	0.406	100%
100			1	1	2.0	0.003	0.406	100%
101			1	1	2.0	0.003	0.406	100%
102			1	1	2.0	0.003	0.406	100%
103			1	1	2.0	0.003	0.406	100%
104			1	1	2.0	0.003	0.406	100%
105			1	1	2.0	0.003	0.406	100%
106			1	1	2.0	0.003	0.406	100%
107			1	1	2.0	0.003	0.406	100%
108			1	1	2.0	0.003	0.406	100%
109			1	1	2.0	0.003	0.406	100%
110			1	1	2.0	0.003	0.406	100%
111			1	1	2.0	0.003	0.406	100%
112			1	1	2.0	0.003	0.406	100%
113			1	1	2.0	0.003	0.406	100%
114			1	1	2.0	0.003	0.406	100%
115			1	1	2.0	0.003	0.406	100%
116			1	1	2.0	0.003	0.406	100%
117			1	1	2.0	0.003	0.406	100%
118			1	1	2.0	0.003	0.406	100%
119			1	1	2.0	0.003	0.406	100%
120			1	1	2.0	0.003	0.406	100%
121			1	1	2.0	0.003	0.406	100%
122			1	1	2.0	0.003	0.406	100%
123			1	1	2.0	0.003	0.406	100%
124			1	1	2.0	0.003	0.406	100%
125			1	1	2.0	0.003	0.406	100%
126			1	1	2.0	0.003	0.406	100%
127			1	1	2.0	0.003	0.406	100%
128			1	1	2.0	0.003	0.406	100%
129			1	1	2.0	0.003	0.406	100%
130			1	1	2.0	0.003	0.406	100%
131			1	1	2.0	0.003	0.406	100%
132			1	1	2.0	0.003	0.406	100%
133			1	1	2.0	0.003	0.406	100%
134			1	1	2.0	0.003	0.406	100%
135			1	1	2.0	0.003	0.406	100%
136			1	1	2.0	0.003	0.406	100%
137			1	1	2.0	0.003	0.406	100%
138			1	1	2.0	0.003	0.406	100%
139			1	1	2.0	0.003	0.406	100%
140			1	1	2.0	0.003	0.406	100%
141			1	1	2.0	0.003	0.406	100%
142			1	1	2.0	0.003	0.406	100%
143			1	1	2.0	0.003	0.406	100%
144			1	1	2.0	0.003	0.406	100%
145			1	1	2.0	0.003	0.406	100%
146			1	1	2.0	0.003	0.406	100%
147			1	1	2.0	0.003	0.406	100%
148			1	1	2.0	0.003	0.406	100%
149			1	1	2.0	0.003	0.406	100%
150			1	1	2.0	0.003	0.406	100%
151			1	1	2.0	0.003	0.406	100%
152			1	1	2.0	0.003	0.406	100%
153			1	1	2.0	0.003	0.406	100%
154			1	1	2.0	0.003	0.406	100%
155			1	1	2.0	0.003	0.406	100%
156			1	1	2.0	0.003	0.406	100%
157			1	1	2.0	0.003	0.406	100%
158			1	1	2.0	0.003	0.406	100%
159			1	1	2.0	0.003	0.406	100%
160			1	1	2.0	0.003	0.406	100%
161			1	1	2.0	0.003	0.406	100%
162			1	1	2.0	0.003	0.406	100%
163			1	1	2.0	0.003	0.406	100%
164			1	1	2.0	0.003	0.406	100%
165			1	1	2.0	0.003	0.406	100%
166			1	1	2.0	0.003	0.406	100%
167			1	1	2.0	0.003	0.406	100%
168			1	1	2.0	0.003	0.406	100%
169			1	1	2.0	0.003	0.406	100%
170			1	1	2.0	0.003	0.406	100%
171			1	1	2.0	0.003	0.406	100%
172			1	1	2.0	0.003	0.406	100%
173			1	1	2.0	0.003	0.406	100%
174			1	1	2.0	0.003	0.406	100%
175			1	1	2.0	0.003	0.406	100%
176			1	1	2.0	0.003	0.406	100%
177			1	1	2.0	0.003	0.406	100%
178			1	1	2.0	0.003	0.406	100%
179			1	1	2.0	0.003	0.406	100%
180			1	1	2.0	0.003	0.406	100%
181			1	1	2.0	0.003	0.406	100%
182			1	1	2.0	0.003	0.406	100%
183			1	1	2.0	0.003	0.406	100%
184			1	1	2.0	0.003	0.406	100%
185			1	1	2.0	0.003	0.406	100%
186			1	1	2.0	0.003	0.406	100%
187			1	1	2.0	0.003	0.406	100%
188			1	1	2.0	0.003	0.406	100%
189			1	1	2.0	0.003	0.406	100%
190			1	1	2.0	0.003	0.406	100%
191			1	1	2.0	0.003	0.406	100%
192			1	1	2.0	0.003	0.406	100%
193			1	1	2.0	0.003	0.406	100%
194			1	1	2.0	0.003	0.406	100%
195			1	1	2.0	0.003	0.406	100%
196			1	1	2.0	0.003	0.406	100%
197			1	1	2.0	0.003	0.406	100%
198			1	1	2.0	0.003	0.406	100%
199			1	1	2.0	0.003	0.406	100%
200			1	1	2.0	0.003	0.406	100%
201			1	1	2.0	0.003	0.406	100%
202			1	1	2.0	0.003	0.406	100%
203	Kirill Borusyak and Peter Hull. \newblock Non-rand...	27845	1	1	2.0	0.003	0.406	100%
204			1	1	2.0	0.003	0.406	100%
205			1	1	2.0	0.003	0.406	100%
206			1	1	2.0	0.003	0.406	100%
207			1	1	2.0	0.003	0.406	100%
208			1	1	2.0	0.003	0.406	100%
209			1	1	2.0	0.003	0.406	100%
210			1	1	2.0	0.003	0.406	100%
211			1	1	2.0	0.003	0.406	100%
212			1	1	2.0	0.003	0.406	100%
213			1	1	2.0	0.003	0.406	100%
214			1	1	2.0	0.003	0.406	100%
215			1	1	2.0	0.003	0.406	100%
216			1	1	2.0	0.003	0.406	100%
217			1	1	2.0	0.003	0.406	100%
218			1	1	2.0	0.003	0.406	100%

Reference

Year

Mentions

Breadth

Sec. Wtd

Composite

Main %

17.0

0.024

1.000

100%

9.0

0.013

1.000

100%

5.5

0.013

1.000

100%

6.0

0.016

1.000

100%

6.5

0.018

1.000

100%

4.0

0.013

1.000

100%

10.0

0.013

1.000

100%

12.0

0.016

1.000

100%

16.0

0.021

1.000

100%

12.0

0.016

1.000

100%

10.0

0.013

1.000

100%

12.0

0.016

1.000

100%

10.0

0.013

1.000

100%

7.0

0.011

0.928

100%

7.0

0.011

0.928

100%

7.0

0.011

0.928

100%

8.0

0.011

0.928

100%

8.0

0.011

0.928

100%

6.5

0.011

0.928

100%

8.0

0.011

0.928

100%

12.0

0.016

0.874

100%

3.0

0.008

0.843

100%

8.0

0.011

0.811

100%

8.0

0.011

0.811

100%

3.0

0.008

0.737

100%

3.0

0.008

0.737

100%

3.0

0.008

0.737

100%

3.0

0.008

0.737

100%

6.0

0.008

0.737

100%

6.0

0.008

0.737

100%

6.0

0.008

0.737

100%

6.0

0.008

0.737

100%

6.0

0.008

0.737

100%

3.0

0.005

0.644

100%

2.5

0.005

0.644

100%

2.5

0.005

0.644

100%

2.5

0.005

0.644

100%

2.5

0.005

0.644

100%

2.5

0.005

0.644

100%

2.5

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

Guido Imbens and Yiqing Xu. \newblock Lalonde (self)

1986

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

4.0

0.005

0.644

100%

1.5

0.008

0.585

100%

6.0

0.008

0.585

100%

6.0

0.008

0.585

100%

1.0

0.005

0.511

100%

1.0

0.005

0.511

100%

1.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

4.0

0.005

0.511

100%

1.0

0.003

0.406

100%

1.0

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

0.5

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

2.0

0.003

0.406

100%

100

2.0

0.003

0.406

100%

101

2.0

0.003

0.406

100%

102

2.0

0.003

0.406

100%

103

2.0

0.003

0.406

100%

104

2.0

0.003

0.406

100%

105

2.0

0.003

0.406

100%

106

2.0

0.003

0.406

100%

107

2.0

0.003

0.406

100%

108

2.0

0.003

0.406

100%

109

2.0

0.003

0.406

100%

110

2.0

0.003

0.406

100%

111

2.0

0.003

0.406

100%

112

2.0

0.003

0.406

100%

113

2.0

0.003

0.406

100%

114

2.0

0.003

0.406

100%

115

2.0

0.003

0.406

100%

116

2.0

0.003

0.406

100%

117

2.0

0.003

0.406

100%

118

2.0

0.003

0.406

100%

119

2.0

0.003

0.406

100%

120

2.0

0.003

0.406

100%

121

2.0

0.003

0.406

100%

122

2.0

0.003

0.406

100%

123

2.0

0.003

0.406

100%

124

2.0

0.003

0.406

100%

125

2.0

0.003

0.406

100%

126

2.0

0.003

0.406

100%

127

2.0

0.003

0.406

100%

128

2.0

0.003

0.406

100%

129

2.0

0.003

0.406

100%

130

2.0

0.003

0.406

100%

131

2.0

0.003

0.406

100%

132

2.0

0.003

0.406

100%

133

2.0

0.003

0.406

100%

134

2.0

0.003

0.406

100%

135

2.0

0.003

0.406

100%

136

2.0

0.003

0.406

100%

137

2.0

0.003

0.406

100%

138

2.0

0.003

0.406

100%

139

2.0

0.003

0.406

100%

140

2.0

0.003

0.406

100%

141

2.0

0.003

0.406

100%

142

2.0

0.003

0.406

100%

143

2.0

0.003

0.406

100%

144

2.0

0.003

0.406

100%

145

2.0

0.003

0.406

100%

146

2.0

0.003

0.406

100%

147

2.0

0.003

0.406

100%

148

2.0

0.003

0.406

100%

149

2.0

0.003

0.406

100%

150

2.0

0.003

0.406

100%

151

2.0

0.003

0.406

100%

152

2.0

0.003

0.406

100%

153

2.0

0.003

0.406

100%

154

2.0

0.003

0.406

100%

155

2.0

0.003

0.406

100%

156

2.0

0.003

0.406

100%

157

2.0

0.003

0.406

100%

158

2.0

0.003

0.406

100%

159

2.0

0.003

0.406

100%

160

2.0

0.003

0.406

100%

161

2.0

0.003

0.406

100%

162

2.0

0.003

0.406

100%

163

2.0

0.003

0.406

100%

164

2.0

0.003

0.406

100%

165

2.0

0.003

0.406

100%

166

2.0

0.003

0.406

100%

167

2.0

0.003

0.406

100%

168

2.0

0.003

0.406

100%

169

2.0

0.003

0.406

100%

170

2.0

0.003

0.406

100%

171

2.0

0.003

0.406

100%

172

2.0

0.003

0.406

100%

173

2.0

0.003

0.406

100%

174

2.0

0.003

0.406

100%

175

2.0

0.003

0.406

100%

176

2.0

0.003

0.406

100%

177

2.0

0.003

0.406

100%

178

2.0

0.003

0.406

100%

179

2.0

0.003

0.406

100%

180

2.0

0.003

0.406

100%

181

2.0

0.003

0.406

100%

182

2.0

0.003

0.406

100%

183

2.0

0.003

0.406

100%

184

2.0

0.003

0.406

100%

185

2.0

0.003

0.406

100%

186

2.0

0.003

0.406

100%

187

2.0

0.003

0.406

100%

188

2.0

0.003

0.406

100%

189

2.0

0.003

0.406

100%

190

2.0

0.003

0.406

100%

191

2.0

0.003

0.406

100%

192

2.0

0.003

0.406

100%

193

2.0

0.003

0.406

100%

194

2.0

0.003

0.406

100%

195

2.0

0.003

0.406

100%

196

2.0

0.003

0.406

100%

197

2.0

0.003

0.406

100%

198

2.0

0.003

0.406

100%

199

2.0

0.003

0.406

100%

200

2.0

0.003

0.406

100%

201

2.0

0.003

0.406

100%

202

2.0

0.003

0.406

100%

203

Kirill Borusyak and Peter Hull. \newblock Non-rand...

27845

2.0

0.003

0.406

100%

204

2.0

0.003

0.406

100%

205

2.0

0.003

0.406

100%

206

2.0

0.003

0.406

100%

207

2.0

0.003

0.406

100%

208

2.0

0.003

0.406

100%

209

2.0

0.003

0.406

100%

210

2.0

0.003

0.406

100%

211

2.0

0.003

0.406

100%

212

2.0

0.003

0.406

100%

213

2.0

0.003

0.406

100%

214

2.0

0.003

0.406

100%

215

2.0

0.003

0.406

100%

216

2.0

0.003

0.406

100%

217

2.0

0.003

0.406

100%

218

2.0

0.003

0.406

100%

Measures: Mentions = total in-text citations; Breadth = distinct sections; Sec. Wtd = section-weighted count (body ×2, lit review/appendix ×0.5); Share = mentions / total citations in paper; Composite = geometric mean of normalised count, breadth, and main-text ratio; Main % = fraction of mentions in main text (excl. appendix). (self) = self-citation.