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publications [2017/12/21 20:51]
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publications [2018/03/19 09:41] (current)
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-<​h2>​2017</​h2>​+<​h2>​2018</​h2>​ 
 + 
 +<!-- This document was automatically generated with bibtex2html 1.98 
 +     (see http://​www.lri.fr/​~filliatr/​bibtex2html/​),​ 
 +     with the following command: 
 +     /​project/​meteo/​data/​raid_alpha/​libradtran/​www/​data/​bibtex2html-1.98-linux/​bibtex2html -nodoc -nofooter -s dsgplain -nokeywords -nobibsource -noabstract articles.bib ​ --> 
 + 
 + 
 +<​table>​ 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000419110000005">​1</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +D.&​nbsp;​L. Burke, E.&​nbsp;​S. Rykoff, S.&​nbsp;​Allam,​ J.&​nbsp;​Annis,​ K.&​nbsp;​Bechtol,​ G.&​nbsp;​M. Bernstein,​ 
 +  A.&​nbsp;​Drlica-Wagner,​ D.&​nbsp;​A. Finley, R.&​nbsp;​A. Gruendl, D.&​nbsp;​J. James, S.&​nbsp;​Kent,​ 
 +  R.&​nbsp;​Kessler,​ S.&​nbsp;​Kuhlmann,​ J.&​nbsp;​Lasker,​ T.&​nbsp;​S. Li, D.&​nbsp;​Scolnic,​ J.&​nbsp;​Smith,​ D.&​nbsp;​L. 
 +  Tucker, W.&​nbsp;​Wester,​ B.&​nbsp;​Yanny,​ T.&​nbsp;​M.&​nbsp;​C. Abbott, F.&​nbsp;​B. Abdalla, A.&​nbsp;​Benoit-Levy,​ 
 +  E.&​nbsp;​Bertin,​ A.&​nbsp;​Carnero&​nbsp;​Rosell,​ M.&​nbsp;​Carrasco Kind, J.&​nbsp;​Carretero,​ C.&​nbsp;​E. Cunha, 
 +  C.&​nbsp;​B. D'​Andrea,​ L.&​nbsp;​N. da&​nbsp;​Costa,​ S.&​nbsp;​Desai,​ H.&​nbsp;​T. Diehl, P.&​nbsp;​Doel,​ J.&​nbsp;​Estrada,​ 
 +  J.&​nbsp;​Garcia-Bellido,​ D.&​nbsp;​Gruen,​ G.&​nbsp;​Gutierrez,​ K.&​nbsp;​Honscheid,​ K.&​nbsp;​Kuehn,​ 
 +  N.&​nbsp;​Kuropatkin,​ M.&​nbsp;​A.&​nbsp;​G. Maia, M.&​nbsp;​March,​ J.&​nbsp;​L. Marshall, P.&​nbsp;​Melchior,​ 
 +  F.&​nbsp;​Menanteau,​ R.&​nbsp;​Miquel,​ A.&​nbsp;​A. Plazas, M.&​nbsp;​Sako,​ E.&​nbsp;​Sanchez,​ V.&​nbsp;​Scarpine,​ 
 +  R.&​nbsp;​Schindler,​ I.&​nbsp;​Sevilla-Noarbe,​ M.&​nbsp;​Smith,​ R.&​nbsp;​C. Smith, M.&​nbsp;​Soares-Santos,​ 
 +  F.&​nbsp;​Sobreira,​ E.&​nbsp;​Suchyta,​ G.&​nbsp;​Tarle,​ A.&​nbsp;​R. Walker, and DES Collaboration. 
 + <​b>​Forward Global Photometric Calibration of the Dark Energy 
 +  Survey</​b>​. 
 + <​em>​ASTRONOMICAL JOURNAL</​em>,​ 155(1), JAN 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.3847/​1538-3881/​aa9f22">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000424144200153">​2</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +K.&​nbsp;​L. Chan, M.&​nbsp;​Wiegner,​ M.&​nbsp;​Wenig,​ and D.&​nbsp;​Poehler. 
 + <​b>​Observations of tropospheric aerosols and NO2 in Hong Kong over 
 +  5 years using ground based MAX-DOAS</​b>​. 
 + <​em>​SCIENCE OF THE TOTAL ENVIRONMENT</​em>,​ 619:​1545--1556,​ APR 1 
 +  2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.scitotenv.2017.10.153">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000422881100003">​3</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Myungje Choi, Jhoon Kim, Jaehwa Lee, Mijin Kim, Young-Je Park, Brent Holben, 
 +  Thomas&​nbsp;​F. Eck, Zhengqiang Li, and Chul&​nbsp;​H. Song. 
 + <​b>​GOCI Yonsei aerosol retrieval version 2 products: an improved 
 +  algorithm and error analysis with uncertainty estimation from 5-year 
 +  validation over East Asia</​b>​. 
 + <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 11(1):​385--408,​ 
 +  JAN 17 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-11-385-2018">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000424327800003">​4</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Klara Cizkova, Kamil Laska, Ladislav Metelka, and Martin Stanek. 
 + <​b>​Reconstruction and analysis of erythemal UV radiation time 
 +  series from Hradec Kralove (Czech Republic) over the past 50 years</​b>​. 
 + <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 18(3):​1805--1818,​ 
 +  FEB 7 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-18-1805-2018">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000417665000018">​5</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Anthony&​nbsp;​B. Davis, Feng Xu, and David&​nbsp;​J. Diner. 
 + <​b>​Generalized radiative transfer theory for scattering by 
 +  particles in an absorbing gas: Addressing both spatial and spectral 
 +  integration in multi-angle remote sensing of optically thin aerosol layers</​b>​. 
 + <​em>​JOURNAL OF QUANTITATIVE SPECTROSCOPY &amp; RADIATIVE TRANSFER</​em>,​ 
 +  205:​148--162,​ JAN 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.jqsrt.2017.10.003">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000425465500002">​6</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Klaus Gierens, Kostas Eleftheratos,​ and Robert Sausen. 
 + <​b>​Intercalibration between HIRS/2 and HIRS/3 channel 12 based on 
 +  physical considerations</​b>​. 
 + <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 11(2):​939--948,​ 
 +  FEB 16 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-11-939-2018">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000418464400005">​7</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Amir Ibrahim, Bryan Franz, Ziauddin Ahmad, Richard Healy, Kirk Knobelspiesse,​ 
 +  Bo-Cai Gao, Chris Proctor, and Peng-Wang Zhai. 
 + <​b>​Atmospheric correction for hyperspectral ocean color retrieval 
 +  with application to the Hyperspectral Imager for the Coastal Ocean (HICO)</​b>​. 
 + <​em>​REMOTE SENSING OF ENVIRONMENT</​em>,​ 204:60--75, JAN 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.rse.2017.10.041">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000425208400001">​8</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Panagiotis&​nbsp;​G. Kosmopoulos,​ Stelios Kazadzis, Michael Taylor, Panagiotis&​nbsp;​I. 
 +  Raptis, Iphigenia Keramitsoglou,​ Chris Kiranoudis, and Alkiviadis&​nbsp;​F. Bais. 
 + <​b>​Assessment of surface solar irradiance derived from real-time 
 +  modelling techniques and verification with ground-based measurements</​b>​. 
 + <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 11(2):​907--924,​ 
 +  FEB 15 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-11-907-2018">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000424290900001">​9</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Mikhail Sofiev, James&​nbsp;​J. Winebrake, Lasse Johansson, Edward&​nbsp;​W. Carr, Marje 
 +  Prank, Joana Soares, Julius Vira, Rostislav Kouznetsov, Jukka-Pekka Jalkanen, 
 +  and James&​nbsp;​J. Corbett. 
 + <​b>​Cleaner fuels for ships provide public health benefits with 
 +  climate tradeoffs</​b>​. 
 + <​em>​NATURE COMMUNICATIONS</​em>,​ 9, FEB 6 2018. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.1038/​s41467-017-02774-9">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 +</​table>​<​h2>​2017</​h2>​
  
 <!-- This document was automatically generated with bibtex2html 1.98 <!-- This document was automatically generated with bibtex2html 1.98
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   2006 to 2015 with OSIRIS at Keck</​b>​.   2006 to 2015 with OSIRIS at Keck</​b>​.
  <​em>​ICARUS</​em>,​ 290:​134--149,​ JUL 1 2017.  <​em>​ICARUS</​em>,​ 290:​134--149,​ JUL 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.icarus.2017.02.015}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.icarus.2017.02.015">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 39: Line 205:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(12):​4587--4600,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(12):​4587--4600,​
   NOV 30 2017.   NOV 30 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-4587-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-4587-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_73}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_73">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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   1887-1950</​b>​.   1887-1950</​b>​.
  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 191:​94--100,​ JUL 15 2017.  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 191:​94--100,​ JUL 15 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.atmosres.2017.03.013}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.atmosres.2017.03.013">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 94: Line 260:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(9):​5991--6001,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(9):​5991--6001,​
   MAY 16 2017.   MAY 16 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-5991-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-5991-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 112: Line 278:
  <​em>​GEOSCIENTIFIC MODEL DEVELOPMENT</​em>,​ 10(8):​2971--2999,​ AUG  <​em>​GEOSCIENTIFIC MODEL DEVELOPMENT</​em>,​ 10(8):​2971--2999,​ AUG
   8 2017.   8 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​gmd-10-2971-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​gmd-10-2971-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 128: Line 294:
  <​em>​INTERNATIONAL JOURNAL OF CLIMATOLOGY</​em>,​ 37(4):​1901--1909,​  <​em>​INTERNATIONAL JOURNAL OF CLIMATOLOGY</​em>,​ 37(4):​1901--1909,​
   MAR 30 2017.   MAR 30 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1002/​joc.4821}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1002/​joc.4821">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(7):​4401--4418,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(7):​4401--4418,​
   APR 3 2017.   APR 3 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-4401-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-4401-2017">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000418426500001">​9</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Germar Bernhard, Irina Petropavlovskikh,​ and Bernhard Mayer. 
 + <​b>​Retrieving vertical ozone profiles from measurements of global 
 +  spectral irradiance</​b>​. 
 + <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(12):​4979--4994,​ 
 +  DEC 20 2017. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-4979-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 153: Line 335:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000390499100003">​9</a>]+[<a name="​ISI:​000390499100003">​10</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 160: Line 342:
   Comparison study between NWP model simulation and extrapolation</​b>​.   Comparison study between NWP model simulation and extrapolation</​b>​.
  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 184:24--34, FEB 1 2017.  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 184:24--34, FEB 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.atmosres.2016.10.003}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.atmosres.2016.10.003">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 168: Line 350:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000409039900002">​10</a>]+[<a name="​ISI:​000409039900002">​11</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 176: Line 358:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3151--3174,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3151--3174,​
   SEP 1 2017.   SEP 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-3151-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-3151-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 184: Line 366:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000414393700013">​11</a>]+[<a name="​ISI:​000414393700013">​12</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 192: Line 374:
  <​em>​IEEE TRANSACTIONS ON VISUALIZATION AND COMPUTER GRAPHICS</​em>,​  <​em>​IEEE TRANSACTIONS ON VISUALIZATION AND COMPUTER GRAPHICS</​em>,​
   23(12):​2641--2655,​ DEC 2017.   23(12):​2641--2655,​ DEC 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1109/​TVCG.2016.2622272}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1109/​TVCG.2016.2622272">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 200: Line 382:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404803100003">​12</a>]+[<a name="​ISI:​000404803100003">​13</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 209: Line 391:
   BRDF-adjusted surface reflectances intercompared over Greenland</​b>​.   BRDF-adjusted surface reflectances intercompared over Greenland</​b>​.
  <​em>​CRYOSPHERE</​em>,​ 11(4):​1575--1589,​ JUL 4 2017.  <​em>​CRYOSPHERE</​em>,​ 11(4):​1575--1589,​ JUL 4 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​tc-11-1575-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​tc-11-1575-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 217: Line 399:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000416266100001">​13</a>]+[<a name="​ISI:​000416266100001">​14</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   snow grain size in central Antarctica</​b>​.   snow grain size in central Antarctica</​b>​.
  <​em>​CRYOSPHERE</​em>,​ 11(6):​2727--2741,​ NOV 27 2017.  <​em>​CRYOSPHERE</​em>,​ 11(6):​2727--2741,​ NOV 27 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​tc-11-2727-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​tc-11-2727-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 234: Line 416:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000403093300005">​14</a>]+[<a name="​ISI:​000403093300005">​15</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY</​em>,​  <​em>​JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY</​em>,​
   56(6):​1595--1608,​ JUN 2017.   56(6):​1595--1608,​ JUN 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1175/​JAMC-D-16-0297.1}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1175/​JAMC-D-16-0297.1">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000402380900004">​15</a>]+[<a name="​ISI:​000402380900004">​16</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Hole Offset by High Climatological Albedo over Antarctica</​b>​.   Hole Offset by High Climatological Albedo over Antarctica</​b>​.
  <​em>​JOURNAL OF CLIMATE</​em>,​ 30(13):​4883--4890,​ JUL 2017.  <​em>​JOURNAL OF CLIMATE</​em>,​ 30(13):​4883--4890,​ JUL 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1175/​JCLI-D-16-0842.1}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1175/​JCLI-D-16-0842.1">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404058300015">​16</a>]+[<a name="​ISI:​000404058300015">​17</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 274: Line 456:
   UltraLight Trike and Flux Calculation</​b>​.   UltraLight Trike and Flux Calculation</​b>​.
  <​em>​ATMOSPHERE</​em>,​ 8(4), APR 2017.  <​em>​ATMOSPHERE</​em>,​ 8(4), APR 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.3390/​atmos8040078}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.3390/​atmos8040078">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 282: Line 464:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000396128700001">​17</a>]+[<a name="​ISI:​000396128700001">​18</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 293: Line 475:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(3):​731--743,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(3):​731--743,​
   MAR 7 2017.   MAR 7 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-731-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-731-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 301: Line 483:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000398651000019">​18</a>]+[<a name="​ISI:​000398651000019">​19</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 310: Line 492:
   angle</​b>​.   angle</​b>​.
  <​em>​ENVIRONMENTAL RESEARCH</​em>,​ 155:​141--166,​ MAY 2017.  <​em>​ENVIRONMENTAL RESEARCH</​em>,​ 155:​141--166,​ MAY 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.envres.2017.01.035}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.envres.2017.01.035">​DOI</​a>&​nbsp;​]
  
 </td> </td>
Line 318: Line 500:
 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000401103400003">​19</a>]+[<a name="​ISI:​000401103400003">​20</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 329: Line 511:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(9):​5829--5849,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(9):​5829--5849,​
   MAY 11 2017.   MAY 11 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-5829-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-5829-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000409123500001">​20</a>]+[<a name="​ISI:​000409123500001">​21</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3215--3230,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3215--3230,​
   SEP 4 2017.   SEP 4 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-3215-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-3215-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000412231200109">​21</a>]+[<a name="​ISI:​000412231200109">​22</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   spectra of Earthshine</​b>​.   spectra of Earthshine</​b>​.
  <​em>​ASTRONOMY &amp; ASTROPHYSICS</​em>,​ 605, SEP 2017.  <​em>​ASTRONOMY &amp; ASTROPHYSICS</​em>,​ 605, SEP 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1051/​0004-6361/​201629948}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1051/​0004-6361/​201629948">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404453100002">​22</a>]+[<a name="​ISI:​000404453100002">​23</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 379: Line 561:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(6):​2337--2352,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(6):​2337--2352,​
   JUN 27 2017.   JUN 27 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-2337-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-2337-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000395168200001">​23</a>]+[<a name="​ISI:​000395168200001">​24</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​565--579,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​565--579,​
   FEB 20 2017.   FEB 20 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-565-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-565-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000405650300001">​24</a>]+[<a name="​ISI:​000405650300001">​25</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 413: Line 595:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(7):​2499--2516,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(7):​2499--2516,​
   JUL 17 2017.   JUL 17 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-2499-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-2499-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000410779500002">​25</a>]+[<a name="​ISI:​000410779500002">​26</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3375--3383,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(9):​3375--3383,​
   SEP 15 2017.   SEP 15 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-3375-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-3375-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000405534800005">​26</a>]+[<a name="​ISI:​000405534800005">​27</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS</​em>,​  <​em>​JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS</​em>,​
   122(6):​5910--5930,​ JUN 2017.   122(6):​5910--5930,​ JUN 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1002/​2016JA023492}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1002/​2016JA023492">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000408286900010">​27</a>]+[<a name="​ISI:​000408286900010">​28</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 461: Line 643:
  <​b>​Atmospheric extinction in solar tower plants - A review</​b>​.  <​b>​Atmospheric extinction in solar tower plants - A review</​b>​.
  <​em>​SOLAR ENERGY</​em>,​ 152(SI):​193--207,​ AUG 2017.  <​em>​SOLAR ENERGY</​em>,​ 152(SI):​193--207,​ AUG 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.solener.2017.01.013}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.solener.2017.01.013">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000406539100005">​28</a>]+[<a name="​ISI:​000406539100005">​29</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​INTERNATIONAL JOURNAL OF REMOTE SENSING</​em>,​  <​em>​INTERNATIONAL JOURNAL OF REMOTE SENSING</​em>,​
   38(21):​5919--5933,​ 2017.   38(21):​5919--5933,​ 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1080/​01431161.2016.1265691}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1080/​01431161.2016.1265691">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000414949200003">​29</a>]+[<a name="​ISI:​000414949200003">​30</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(21):​13317--13327,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(21):​13317--13327,​
   NOV 9 2017.   NOV 9 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-13317-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-13317-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000401492900045">​30</a>]+[<a name="​ISI:​000401492900045">​31</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​RENEWABLE &amp; SUSTAINABLE ENERGY REVIEWS</​em>,​ 74:​616--637,​  <​em>​RENEWABLE &amp; SUSTAINABLE ENERGY REVIEWS</​em>,​ 74:​616--637,​
   JUL 2017.   JUL 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.rser.2017.02.058}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.rser.2017.02.058">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000392385800167">​31</a>]+[<a name="​ISI:​000392385800167">​32</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_167}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_167">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000392385800165">​32</a>]+[<a name="​ISI:​000392385800165">​33</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_165}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_165">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000405373900001">​33</a>]+[<a name="​ISI:​000405373900001">​34</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(7), JUL 11  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(7), JUL 11
   2017.   2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-2435-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-2435-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000394594500002">​34</a>]+[<a name="​ISI:​000394594500002">​35</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 595: Line 777:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(2):​883--898,​ JAN  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(2):​883--898,​ JAN
   20 2017.   20 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-883-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-883-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000416941000003">​35</a>]+[<a name="​ISI:​000416941000003">​36</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 612: Line 794:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(23):​14353--14364,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(23):​14353--14364,​
   DEC 4 2017.   DEC 4 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-14353-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-14353-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404745800010">​36</a>]+[<a name="​ISI:​000404745800010">​37</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 626: Line 808:
  <​b>​Tropospheric haze and colors of the clear twilight sky</​b>​.  <​b>​Tropospheric haze and colors of the clear twilight sky</​b>​.
  <​em>​APPLIED OPTICS</​em>,​ 56(19):​G179--G187,​ JUL 1 2017.  <​em>​APPLIED OPTICS</​em>,​ 56(19):​G179--G187,​ JUL 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1364/​AO.56.00G179}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1364/​AO.56.00G179">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000405069800009">​37</a>]+[<a name="​ISI:​000405069800009">​38</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 642: Line 824:
   Imager on board Akatsuki</​b>​.   Imager on board Akatsuki</​b>​.
  <​em>​ASTRONOMICAL JOURNAL</​em>,​ 154(1), JUL 2017.  <​em>​ASTRONOMICAL JOURNAL</​em>,​ 154(1), JUL 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.3847/​1538-3881/​aa78a5}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.3847/​1538-3881/​aa78a5">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000403043700001">​38</a>]+[<a name="​ISI:​000403043700001">​39</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 664: Line 846:
  <​em>​ADVANCES IN ATMOSPHERIC SCIENCES</​em>,​ 34(7):​805--815,​ JUL  <​em>​ADVANCES IN ATMOSPHERIC SCIENCES</​em>,​ 34(7):​805--815,​ JUL
   2017.   2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​s00376-017-6293-1}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​s00376-017-6293-1">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000407525100002">​39</a>]+[<a name="​ISI:​000407525100002">​40</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 680: Line 862:
   spectra in the latitude band 25 degrees-55 degrees N</​b>​.   spectra in the latitude band 25 degrees-55 degrees N</​b>​.
  <​em>​PLANETARY AND SPACE SCIENCE</​em>,​ 144:16--31, SEP 15 2017.  <​em>​PLANETARY AND SPACE SCIENCE</​em>,​ 144:16--31, SEP 15 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.pss.2017.06.004}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.pss.2017.06.004">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000399326200004">​40</a>]+[<a name="​ISI:​000399326200004">​41</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 697: Line 879:
  <​em>​METEOROLOGICAL APPLICATIONS</​em>,​ 24(2):​191--205,​ APR  <​em>​METEOROLOGICAL APPLICATIONS</​em>,​ 24(2):​191--205,​ APR
   2017.   2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1002/​met.1617}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1002/​met.1617">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404052800001">​41</a>]+[<a name="​ISI:​000404052800001">​42</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 718: Line 900:
  <​em>​GEOSCIENTIFIC MODEL DEVELOPMENT</​em>,​ 10(6):​2247--2302,​ JUN  <​em>​GEOSCIENTIFIC MODEL DEVELOPMENT</​em>,​ 10(6):​2247--2302,​ JUN
   22 2017.   22 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​gmd-10-2247-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​gmd-10-2247-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000395505100006">​42</a>]+[<a name="​ISI:​000395505100006">​43</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 734: Line 916:
   technique for steep slopes based on a steel grid construction</​b>​.   technique for steep slopes based on a steel grid construction</​b>​.
  <​em>​ECOLOGICAL ENGINEERING</​em>,​ 101:39--45, APR 2017.  <​em>​ECOLOGICAL ENGINEERING</​em>,​ 101:39--45, APR 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.ecoleng.2017.01.018}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.ecoleng.2017.01.018">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000412962100030">​43</a>]+[<a name="​ISI:​000412962100030">​44</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 753: Line 935:
  16th Conference on Electromagnetic and Light Scattering (ELS),  16th Conference on Electromagnetic and Light Scattering (ELS),
   College Park, MD, MAR 19-25, 2017.   College Park, MD, MAR 19-25, 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.jqsrt.2017.08.007}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.jqsrt.2017.08.007">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000401405600001">​44</a>]+[<a name="​ISI:​000401405600001">​45</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 769: Line 951:
   heating</​b>​.   heating</​b>​.
  <​em>​NATURE COMMUNICATIONS</​em>,​ 8, MAY 16 2017.  <​em>​NATURE COMMUNICATIONS</​em>,​ 8, MAY 16 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1038/​ncomms15329}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1038/​ncomms15329">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000392385800166">​45</a>]+[<a name="​ISI:​000392385800166">​46</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 791: Line 973:
   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_166}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_166">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000404381900017">​46</a>]+[<a name="​ISI:​000418279200002">​47</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +William&​nbsp;​Wandji Nyamsi, Mikko R.&​nbsp;​A. Pitkanen, Youva Aoun, Philippe Blanc, Anu 
 +  Heikkila, Kaisa Lakkala, Germar Bernhard, Tapani Koskela, Anders&​nbsp;​V. Lindfors, 
 +  Antti Arola, and Lucien Wald. 
 + <​b>​A new method for estimating UV fluxes at ground level in 
 +  cloud-free conditions</​b>​. 
 + <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(12), DEC 19 
 +  2017. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-4965-2017">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000417373100015">​48</​a>​] 
 +</​td>​ 
 +<td class="​bibtexitem">​ 
 +Maria&​nbsp;​A. Obregon, Maria&​nbsp;​J. Costa, Ana&​nbsp;​M. Silva, and Antonio Serrano. 
 + <​b>​Thirteen Years of Aerosol Radiative Forcing in Southwestern 
 +  Iberian Peninsula</​b>​. 
 + <​em>​AEROSOL AND AIR QUALITY RESEARCH</​em>,​ 17(10):​2509--2521,​ 
 +  OCT 2017. 
 +[&​nbsp;<​a href="​http://​dx.doi.org/​10.4209/​aaqr.2017.05.0159">​DOI</​a>&​nbsp;​] 
 + 
 +</​td>​ 
 +</​tr>​ 
 + 
 + 
 +<tr valign="​top">​ 
 +<td align="​right"​ class="​bibtexnumber">​ 
 +[<a name="​ISI:​000404381900017">​49</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 807: Line 1023:
   Spectral Measurement from the Brewer Spectrophotometer</​b>​.   Spectral Measurement from the Brewer Spectrophotometer</​b>​.
  <​em>​ATMOSPHERE</​em>,​ 8(6), JUN 2017.  <​em>​ATMOSPHERE</​em>,​ 8(6), JUN 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.3390/​atmos8060109}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.3390/​atmos8060109">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000394368900003">​47</a>]+[<a name="​ISI:​000394368900003">​50</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 824: Line 1040:
   surface solar irradiance: The Heliosat-4 method</​b>​.   surface solar irradiance: The Heliosat-4 method</​b>​.
  <​em>​METEOROLOGISCHE ZEITSCHRIFT</​em>,​ 26(1):​33--57,​ 2017.  <​em>​METEOROLOGISCHE ZEITSCHRIFT</​em>,​ 26(1):​33--57,​ 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1127/​metz/​2016/​0781}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1127/​metz/​2016/​0781">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000409290200019">​48</a>]+[<a name="​ISI:​000409290200019">​51</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 840: Line 1056:
   and ceilometer measurements</​b>​.   and ceilometer measurements</​b>​.
  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 196:​224--236,​ NOV 1 2017.  <​em>​ATMOSPHERIC RESEARCH</​em>,​ 196:​224--236,​ NOV 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.atmosres.2017.06.006}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.atmosres.2017.06.006">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000402573700009">​49</a>]+[<a name="​ISI:​000402573700009">​52</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 856: Line 1072:
   Clouds</​b>​.   Clouds</​b>​.
  <​em>​REMOTE SENSING</​em>,​ 9(5), MAY 2017.  <​em>​REMOTE SENSING</​em>,​ 9(5), MAY 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.3390/​rs9050406}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.3390/​rs9050406">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000405178200001">​50</a>]+[<a name="​ISI:​000405178200001">​53</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  16th EMS Annual Meeting / 11th European Conference on Applied  16th EMS Annual Meeting / 11th European Conference on Applied
   Climatology (ECAC), Trieste, ITALY, SEP 12-16, 2016.   Climatology (ECAC), Trieste, ITALY, SEP 12-16, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​asr-14-195-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​asr-14-195-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000400038200008">​51</a>]+[<a name="​ISI:​000400038200008">​54</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​JOURNAL OF QUANTITATIVE SPECTROSCOPY &amp; RADIATIVE TRANSFER</​em>,​  <​em>​JOURNAL OF QUANTITATIVE SPECTROSCOPY &amp; RADIATIVE TRANSFER</​em>,​
   194:65--85, JUN 2017.   194:65--85, JUN 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.jqsrt.2017.03.009}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.jqsrt.2017.03.009">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000410696600002">​52</a>]+[<a name="​ISI:​000410696600002">​55</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​EUROPEAN JOURNAL OF REMOTE SENSING</​em>,​ 50(1):​496--508,​  <​em>​EUROPEAN JOURNAL OF REMOTE SENSING</​em>,​ 50(1):​496--508,​
   2017.   2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1080/​22797254.2017.1365570}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1080/​22797254.2017.1365570">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000397319500031">​53</a>]+[<a name="​ISI:​000397319500031">​56</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   space instruments</​b>​.   space instruments</​b>​.
  <​em>​OPTICS EXPRESS</​em>,​ 25(5):​4926--4944,​ MAR 6 2017.  <​em>​OPTICS EXPRESS</​em>,​ 25(5):​4926--4944,​ MAR 6 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1364/​OE.25.004926}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1364/​OE.25.004926">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000394622600010">​54</a>]+[<a name="​ISI:​000394622600010">​57</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 941: Line 1157:
  <​em>​INTERNATIONAL JOURNAL OF REMOTE SENSING</​em>,​  <​em>​INTERNATIONAL JOURNAL OF REMOTE SENSING</​em>,​
   38(4):​1137--1161,​ 2017.   38(4):​1137--1161,​ 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1080/​01431161.2017.1280630}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1080/​01431161.2017.1280630">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000413757200001">​55</a>]+[<a name="​ISI:​000413757200001">​58</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 957: Line 1173:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(20):​12697--12708,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(20):​12697--12708,​
   OCT 26 2017.   OCT 26 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-12697-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-12697-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000395130600001">​56</a>]+[<a name="​ISI:​000395130600001">​59</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 974: Line 1190:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(3):​2359--2372,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(3):​2359--2372,​
   FEB 15 2017.   FEB 15 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-2359-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-2359-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000415895200001">​57</a>]+[<a name="​ISI:​000415895200001">​60</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 990: Line 1206:
  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(22):​13833--13848,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(22):​13833--13848,​
   NOV 21 2017.   NOV 21 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-13833-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-13833-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000395101600002">​58</a>]+[<a name="​ISI:​000395101600002">​61</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 1007: Line 1223:
  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​409--429,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​409--429,​
   FEB 2 2017.   FEB 2 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-409-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-409-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <tr valign="​top">​ <tr valign="​top">​
 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000406091200017">​59</a>]+[<a name="​ISI:​000406091200017">​62</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
Line 1021: Line 1237:
  <​b>​Transfer matrix method for four-flux radiative transfer</​b>​.  <​b>​Transfer matrix method for four-flux radiative transfer</​b>​.
  <​em>​APPLIED OPTICS</​em>,​ 56(21):​5890--5896,​ JUL 20 2017.  <​em>​APPLIED OPTICS</​em>,​ 56(21):​5890--5896,​ JUL 20 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1364/​AO.56.005890}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1364/​AO.56.005890">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000397550500002">​60</a>]+[<a name="​ISI:​000397550500002">​63</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   differences between human and automatic cloud observations</​b>​.   differences between human and automatic cloud observations</​b>​.
  <​em>​SOLAR ENERGY</​em>,​ 144:10--21, MAR 1 2017.  <​em>​SOLAR ENERGY</​em>,​ 144:10--21, MAR 1 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.solener.2016.12.055}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.solener.2016.12.055">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000394597600004">​61</a>]+[<a name="​ISI:​000394597600004">​64</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(2):​1125--1142,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(2):​1125--1142,​
   JAN 24 2017.   JAN 24 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-1125-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-1125-2017">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000392385800102">​62</a>]+[<a name="​ISI:​000392385800102">​65</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_102}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_102">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000392385800168">​63</a>]+[<a name="​ISI:​000392385800168">​66</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,   Atmospheric Physics (COMECAP), Aristotle Univ Res Disseminat Ctr,
   Thessaloniki,​ GREECE, SEP 19-21, 2016.   Thessaloniki,​ GREECE, SEP 19-21, 2016.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1007/​978-3-319-35095-0_168}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1007/​978-3-319-35095-0_168">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000395404000004">​64</a>]+[<a name="​ISI:​000395404000004">​67</a>]
 </td> </td>
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  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​709--730,​  <​em>​ATMOSPHERIC MEASUREMENT TECHNIQUES</​em>,​ 10(2):​709--730,​
   MAR 3 2017.   MAR 3 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​amt-10-709-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​amt-10-709-2017">​DOI</​a>&​nbsp;​]
  
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-[<a name="​ISI:​000397941100001">​65</a>]+[<a name="​ISI:​000397941100001">​68</a>]
 </td> </td>
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  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(6):​4283--4303,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(6):​4283--4303,​
   MAR 30 2017.   MAR 30 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-4283-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-4283-2017">​DOI</​a>&​nbsp;​]
  
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-[<a name="​ISI:​000393877800022">​66</a>]+[<a name="​ISI:​000393877800022">​69</a>]
 </td> </td>
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  <​em>​JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES</​em>,​  <​em>​JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES</​em>,​
   122(1):​391--404,​ JAN 2017.   122(1):​391--404,​ JAN 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1002/​2016JD025585}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1002/​2016JD025585">​DOI</​a>&​nbsp;​]
  
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-[<a name="​ISI:​000399511800010">​67</a>]+[<a name="​ISI:​000399511800010">​70</a>]
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  <​em>​SCIENCE OF THE TOTAL ENVIRONMENT</​em>,​ 590:​92--106,​ JUL 15  <​em>​SCIENCE OF THE TOTAL ENVIRONMENT</​em>,​ 590:​92--106,​ JUL 15
   2017.   2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.scitotenv.2017.02.174}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.scitotenv.2017.02.174">​DOI</​a>&​nbsp;​]
  
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-[<a name="​ISI:​000403779200001">​68</a>]+[<a name="​ISI:​000403779200001">​71</a>]
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  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(11):​7157--7174,​  <​em>​ATMOSPHERIC CHEMISTRY AND PHYSICS</​em>,​ 17(11):​7157--7174,​
   JUN 16 2017.   JUN 16 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.5194/​acp-17-7157-2017}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.5194/​acp-17-7157-2017">​DOI</​a>&​nbsp;​]
  
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-[<a name="​ISI:​000411298800002">​69</a>]+[<a name="​ISI:​000411298800002">​72</a>]
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   haze and high-humidity urban conditions</​b>​.   haze and high-humidity urban conditions</​b>​.
  <​em>​ATMOSPHERIC ENVIRONMENT</​em>,​ 166:9--21, OCT 2017.  <​em>​ATMOSPHERIC ENVIRONMENT</​em>,​ 166:9--21, OCT 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1016/​j.atmosenv.2017.07.006}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1016/​j.atmosenv.2017.07.006">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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-[<a name="​ISI:​000414650600027">​70</a>]+[<a name="​ISI:​000414650600027">​73</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   Central China</​b>​.   Central China</​b>​.
  <​em>​REMOTE SENSING</​em>,​ 9(10), OCT 2017.  <​em>​REMOTE SENSING</​em>,​ 9(10), OCT 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.3390/​rs9100997}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.3390/​rs9100997">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000410789900035">​71</a>]+[<a name="​ISI:​000410789900035">​74</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   and longwave radiative forcing</​b>​.   and longwave radiative forcing</​b>​.
  <​em>​ACTA PHYSICA SINICA</​em>,​ 66(16), AUG 20 2017.  <​em>​ACTA PHYSICA SINICA</​em>,​ 66(16), AUG 20 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.7498/​aps.66.169201}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.7498/​aps.66.169201">​DOI</​a>&​nbsp;​]
  
 </td> </td>
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 <td align="​right"​ class="​bibtexnumber">​ <td align="​right"​ class="​bibtexnumber">​
-[<a name="​ISI:​000416029200001">​72</a>]+[<a name="​ISI:​000416029200001">​75</a>]
 </td> </td>
 <td class="​bibtexitem">​ <td class="​bibtexitem">​
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   multi-imaging spectroradiometer</​b>​.   multi-imaging spectroradiometer</​b>​.
  <​em>​MEASUREMENT SCIENCE AND TECHNOLOGY</​em>,​ 28(12), DEC 2017.  <​em>​MEASUREMENT SCIENCE AND TECHNOLOGY</​em>,​ 28(12), DEC 2017.
-[&​nbsp;<​a href="​http://​dx.doi.org/​{10.1088/​1361-6501/​aa9409}">​DOI</​a>&​nbsp;​]+[&​nbsp;<​a href="​http://​dx.doi.org/​10.1088/​1361-6501/​aa9409">​DOI</​a>&​nbsp;​]
  
 </td> </td>
 </tr> </tr>
 +
 </​table><​h2>​2016</​h2>​ </​table><​h2>​2016</​h2>​
  
 
 
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