How the Right Lighting Could Save the Mona Lisa

July 22, 2019

Dorukalp Durmus 

Next time you’re in a museum or art gallery, observe each painting a little more closely. You may notice cracks on the surface of the canvas, especially if the painting is very old.

The damage you see is caused by radiant energy striking the painting’s surface — and light (visible radiation) causes irreversible damage to artwork.

However, all is not lost. Our new research shows that optimized smart lighting systems can reduce damage to paintings while preserving their colour appearance.

The dilemma

Damage to artwork by infrared, ultraviolet and visible radiation is well documented. When a photon (an elementary light particle) is absorbed by a pigment in paint, the pigment molecule elevates to a higher energy state. In this excited state, the molecule’s chemical composition changes. This is called a photochemical action. 

Viewed from the human perspective, the photochemical action manifests itself as cracks, discolouration, or surface hardening.

Not surprisingly, daylight, which includes infrared and ultraviolet radiation, is highly damaging to paintings. In museums, it is common practice to use incandescent, and more recently, LEDs, to reduce damage. 

However, a group of researchers showed that light can cause colour degradation regardless of the lighting technology. Bright yellow colours in Van Gogh’s famous Sunflowers are turning dark brown due to absorption of blue and green light from LEDs. Research on the conservation of artwork makes it look like this is a losing battle. 

Of course, you will be right in thinking that the best conservation method would be the complete absence of light. But we need light for visibility and to appreciate the beauty of a painting. This leaves us with a dilemma of two conflicting parameters: visibility and damage.

Light optimization

Lighting technology in itself may not be enough to tackle this dilemma. However, the way we use technology can make a difference. 

Our approach to address this problem is based on three key facts: 

  1. light triggers photochemical actions only when it is absorbed by a pigment
  2. the reflectance factor of a pigment (its effectiveness in reflecting light) determines the amount of light absorption
  3. light output (composition of the light spectrum, and the intensity of the light) of lighting devices, such as LEDs, can be fine-tuned.

It is possible to measure the reflectance factor of a painting and optimize lighting to reduce absorption. Previous research shows that optimizing light to lessen absorption can reduce energy consumption significantly, and with no loss in visual experience. Objects look equally natural and attractive under optimized light sources compared to regular white light sources. 

In this new study, we optimized LEDs for five paintings to reduce light absorption. Using a genetic algorithm (an artificial intelligence technique), we reduced light absorption between 19% and 47%. Besides the benefits for the painting, this method almost halved the energy consumed by lighting. 

In addition to increased sustainability and art conservation, the colour quality of the paintings was another parameter in our optimization process. Colour appearance and brightness of paintings were held constant not to lower the appreciation of the artwork.

This is possible due to a quirk in our visual system. Photoreceptor cone cells, the cells in our retinas that enable human colour vision, are not equally sensitive to the whole visible spectrum. 

Different combinations of wavelength and intensity can result in identical signals in our brain. This understanding gives us the flexibility of using different light sources to facilitate identical colour appearances. 

This smart lighting system requires scanning of the artwork to obtain colour information. Then, a precise projection system emits optimized lighting to the painting. 

This method offers a solution to extend the lifetime of works of art, such as the world-famous Mona Lisa, without leaving them in the dark.

Dorukalp Durmus is an Honorary Associate, University of Sydney. This article was first published online by the University of Sydney: theconversation.com/how-the-right-lighting-could-save-the-mona-lisa-95938. It has been lightly edited.

Photo source: Juan Di Nella on Unsplash

Related Articles


Changing Scene

  • Luminis Wins Two 2024 Product Innovation Awards

    Luminis is pleased to announce its Syrios Pro family and Jaki luminaires have each received a 2024 Product Innovation Award from Architectural Products magazine. The PIA program was created to celebrate the ground-breaking products, systems, and materials that help architects achieve new levels of creativity or performance in their design. Each entry is reviewed by… Read More…

  • NEMRA Announces Jeff Bristol as Vice President of the Newly Formed NEMRA Lighting Division

    The National Electrical Manufacturers Representatives Association (NEMRA) is proud to announce the appointment of Jeff Bristol as Vice President of the newly formed NEMRA Lighting Division. Jeff Bristol most recently served as Senior Vice President of Sales & Marketing for MaxLite, where he was responsible for developing and executing sales and marketing strategies across multiple… Read More…


Design

  • Project Story: Sainte-Thérèse High School Outdoor Lighting Upgrade

    Project Story: Sainte-Thérèse High School Outdoor Lighting Upgrade

    August 6, 2024 Built in 1980, the building that houses Sainte-Thérèse high school, in Quebec Canada, was looking a little worse for the wear. Renovation work began with two major projects: introducing a multidisciplinary sports centre, as well as redesigning the parking lots.  The employee and visitor parking lots were completely reconfigured during phase 1… Read More…

  • Resilience Illuminated: Reviving Westminster Pier Park After Devastating Fire

    Resilience Illuminated: Reviving Westminster Pier Park After Devastating Fire

    In September 2020, the picturesque city of New Westminster near Vancouver in British Columbia suffered a devastating setback when an intentionally set fire destroyed much of the city’s waterfront park, including its urban beach, sand volleyball courts, and iconic art installation known as Wow Westminster. The fire, which burned for ten days before firefighters could… Read More…


New Products

  • SATCO|NUVO: Lacey Collection LED Smart Color-Changing Pendants

    SATCO|NUVO: Lacey Collection LED Smart Color-Changing Pendants

    The Lacey LED pendant collection combines sophisticated design with the advanced functionality of STARFISH Smart technology. Featuring beautiful lead free bubble crystal, these fixtures create a stunning interplay of light, texture, and color. Each bubble sparkles with vibrant hues, while traditional white tones, ranging from warm to natural light, offer a more classic lighting option.… Read More…

  • Contact Delage: New Ketra Lighting by Lutron – Make Your Clients Feel the Vibe

    Contact Delage: New Ketra Lighting by Lutron – Make Your Clients Feel the Vibe

    In a world where light plays a central role in architecture and design, Ketra Lighting by Lutron redefines how we illuminate spaces and influence emotions. With its unique approach and advanced capabilities, Ketra Lighting transforms every residential or commercial project into an immersive and personalized experience. Ketra Lighting stands out with its revolutionary technology, where… Read More…