New research has revealed that Rembrandt impregnated the canvas for his famous 1642 militia painting “The Night Watch” with a lead-containing substance even before applying the first ground layer. Such lead-based impregnation has never before been observed with Rembrandt or his contemporaries. The discovery, published today in Science Advances, underlines Rembrandt’s inventive way of working, in which he did not shy away from using new techniques.
The surprising observation is yet another result from Operation Night Watch, the largest and most wide-ranging research and conservation project in the history of Rembrandt’s masterpiece. It resulted from advanced analysis of an actual paint sample taken from the historical painting.
The first author of the paper is Fréderique Broers, a researcher at the Rijksmuseum and Ph.D. student with professors Katrien Keune (University of Amsterdam), Koen Janssens (University of Antwerp) and Florian Meirer (Utrecht University). Her research forms part of the research project 3D Understanding of Degradation Products in Paintings of the Netherlands Institute for Conservation+Art+Science+ (NICAS).
Broers and coworkers employed a combination of X-ray fluorescence and ptychography to identify and visualize sub-microscale chemical compounds in the lower layers of the canvas. By sampling the small Night Watch paint fragment at DESY (Deutsches Elektronen-Synchrotron, Hamburg), they discovered the lead-rich layer below the quartz-clay ground layer of the canvas.
Protection against moisture
It was already known from earlier studies that Rembrandt had used a quartz-clay ground on the Night Watch. In earlier paintings, he had used double grounds, consisting of a first ground containing red earth pigments followed by a second lead white containing ground. The large size of The Night Watch may have motivated Rembrandt to look for a cheaper, less heavy and more flexible alternative for the ground layer.
Another issue he had to overcome was that the large canvas was intended for a damp outer wall of the great hall of the Kloveniersdoelen (musketeers’ shooting range) in Amsterdam. It had been reported that under humid conditions the common method of preparing the canvas using animal glue could fail. A contemporary source on painting techniques written by Théodore de Mayerne suggested impregnation with lead-rich oil as an alternative. This may have inspired Rembrandt for his unusual impregnation procedure to improve the durability of his masterpiece.
The presence of this lead-containing ‘layer’ was discovered by the first-ever use of correlated X-ray fluorescence and ptychographic nano-tomography on a historical paint sample. This was performed at the PETRA III synchrotron radiation source at DESY. X-ray fluorescence is used to investigate the distribution of relatively heavy elements (calcium and heavier). Ptychography, a computational imaging technique based on experimentally obtained datasets, is capable of visualizing even the lightest elements and organic fractions.
Analysis of the microsample taken from The Night Watch revealed that on the side of the sample closest to the canvas support a homogenous layer of dispersed lead was present in the ground layer. Since lead components were not to be expected in the quartz-clay ground layer, this was a rather puzzling observation. The results were then combined with the lead distribution map of the full Night Watch, obtained by X-ray fluorescence scanning of the painting in the Rijksmuseum’s Gallery of Honour.
This map reveals the presence of lead throughout the painting and suggests application using large semi-circular brushstrokes, supporting the assumption that it results from an impregnation procedure. Even an imprint of the original strainer onto which the canvas was stretched when the preparatory layers were applied, is visible in the lead distribution map. This brings us yet another step closer to understanding Rembrandt’s creative process in painting The Night Watch, as well as its current condition.
Fréderique Broers et al, Correlated X-ray Fluorescence and Ptychographic Nano-Tomography on Rembrandt’s The Night Watch Reveals Unknown Lead ‘Layer’, Science Advances (2023). DOI: 10.1126/sciadv.adj9394. www.science.org/doi/10.1126/sciadv.adj9394
University of Amsterdam
Study shows how Rembrandt broke new ground with lead-based impregnation of canvas for The Night Watch (2023, December 15)
retrieved 16 December 2023
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.
LivU Video Chat: Proven Strategies for Free Coins
How to Earn Free Spins in Coin Master: Step-by-Step Tutorial
Free TikTok Coins Today: Quick Tips
La formule secrète de la génération de pièces sur TikTok
LivU Video Chat Free Coins Hack: Elevate Your Conversations
Boost Your Coin Master Progress with Free Spins
TikTok Coin Hacks for Content Creators
مولدي العملات TikTok: نصائح للاستفادة القصوى
LivU Video Chat Free Coins Hack for Chat Enthusiasts
Legitimate Ways to Get Free Spins in Coin Master
Unlocking Free Avacoins in Avakin Life: A Comprehensive Guide
Get Free Credits in Bingo Blitz: Tips and Tricks
How to Get Spins in Coin Master Legally and Quickly
9 easy ways to get free primogems in genshin impact one esports
How to Earn ZEPETO Zems: Step-by-Step Tutorial
match masters all boosters match master free booster
How to Earn TikTok Coins: Step-by-Step Tutorial
Unlimited TikTok Coins: Myth or Reality?
Générateurs de pièces TikTok : Mythe ou réalité ?
The Science of Free Coins Farming in LivU Video Chat
Coin Master Free Spins Today: Quick Tips
Avakin Life Avacoins Hack: Boost Your Virtual Wealth for Free
Bingo Blitz Credits Farming: Your Ultimate Guide
TikTok Coin Farming: What You Need to Know
Conseils des pros : Stratégies de récolte de pièces TikTok