Front / Recto
- Title Untitled
- Negative Date c. 1930
- Print Date c. 1930–39
- Medium Gelatin silver print
- Dimensions Image 3 3/8 x 4 9/16" (8.5 x 11.6 cm)
- Place Taken Budapest
- Credit Line Thomas Walther Collection. Gift of Thomas Walther
- MoMA Accession Number 1739.2001
- Copyright © 2015 Judit Kinszki/ Vintage Gallery, Budapest
Back / Verso
- Mount Type No mount
- Marks and Inscriptions Stamped in black ink on sheet verso, top left: foto KINSZKI Imre. Inscribed in pencil on sheet verso, top right: 19 [circled]. Inscribed in pencil on sheet verso, center right: [illegible]. Inscribed in pencil on sheet verso, bottom center: KC 19.
The artist; to the artist’s daughter, Judit Kinszki ; to Csaba Morocz, Paris, 1996 ; to Howard Greenberg Gallery, New York, 1996 ; purchased by Thomas Walther, February 20, 1998 ; given to The Museum of Modern Art, New York, 2001.
 Csaba Morocz, e-mail to Simon Bieling, June 11, 2005.
 Ibid.; and MacGill/Walther 2001(4), p. 7.
 MacGill/Walther 2001(4), p. 7; and Alicia Colen (Howard Greenberg Gallery), e-mail to Maria Morris Hambourg, October 25, 2013.
 Howard Greenberg Gallery invoice no. 98-231, February 20, 1998.
- Format Metric
- Weight Double weight
- Thickness (mm) 0.31
- UV Fluorescence Recto negative Verso negative
- Fiber Analysis Softwood bleached sulfite 99% Rag 2%
- Material Techniques Developing-out paper
This work was determined to be a gelatin silver print via X-ray fluorescence (XRF) spectrometry.
The following elements have been positively identified in the work, through XRF readings taken from its recto and verso (or from the mount, where the verso was not accessible):
- Recto: P, S, Ca, Zn, Br, Sr, Ag, Ba
- Verso: Al, Si, S, K, Ca, Zn, Br, Sr, Ba
The graphs below show XRF spectra for three areas on the print: two of the recto—from areas of maximum and minimum image density (Dmax and Dmin)—and one of the verso or mount. The background spectrum represents the contribution of the XRF instrument itself. The first graph shows elements identified through the presence of their characteristic peaks in the lower energy range (0 to 8 keV). The second graph shows elements identified through the presence of their characteristic peaks in the higher energy range (8 to 40 keV).
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