Tag Archives: University of South Africa

The importance of photonics (science of light) in African science

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A May 14, 2025 essay (h/t to phys.org) written by Andrew Forbes, professor, University of the Witwatersrand, and Patience Mthunzi-Kufa, distinguished professor, University of South Africa, for The Conversation describes the history, current work, and hopes for photonics on the African continent, Note: Some links have been removed,

Light is all around us, essential for one of our primary senses (sight) as well as life on Earth itself. It underpins many technologies that affect our daily lives, including energy harvesting with solar cells, light-emitting-diode (LED) displays and telecommunications through fibre optic networks.

The smartphone is a great example of the power of light. Inside the box, its electronic functionality works because of quantum mechanics [Note; Link removed]. The front screen is an entirely photonic device: liquid crystals controlling light. The back too: white light-emitting diodes for a flash, and lenses to capture images.

We use the word photonics, and sometimes optics, to capture the harnessing of light for new applications and technologies. Their importance in modern life is celebrated every year on 16 May with the International Day of Light.

Scientists on the African continent, despite the resource constraints they work under, have made notable contributions to photonics research. Some of these have been captured in a recent special issue of the journal Applied Optics [Note: Link removed]. Along with colleagues in this field from Morocco and Senegal, we introduced this collection of papers [Note: Link removed], which aims to celebrate excellence and show the impact of studies that address continental issues.

Africa’s history in formal optics stems back thousands of years, [emphasis mine] with references to lens design already recorded in ancient Egyptian writings.

In more recent times, Africa has contributed to two Nobel prizes based on optics. Ahmed Zewail (Egyptian born) watched the ultrafast processes in chemistry with lasers (1999, Nobel Prize for Chemistry) and Serge Harouche (Moroccan born) studied the behaviour of individual particles of light, photons (2012, Nobel Prize for Physics).

The papers in the special journal issue touch on a diversity of continent-relevant topics.

One is on using optics to communicate across free-space (air) even in bad weather conditions. This light-based solution was tested using weather data from two African cities, Alexandria in Egypt and Setif in Algeria.

Another paper is about tiny quantum sources of quantum entanglement for sensing. The authors used diamond, a gem found in South Africa and more commonly associated with jewellery. Diamond has many flaws, one of which can produce single photons as an output when excited. The single photon output was split into two paths, as if the particle went both left and right at the same time. This is the quirky notion of entanglement, in this case, created with diamonds. If an object is placed in any one path, the entanglement can detect it. Strangely, sometimes the photons take the left-path but the object is in the right-path, yet still it can be detected.

One contributor proposes a cost-effective method to detect and classify harmful bacteria in water.

New approaches in spectroscopy (studying colour) [Note: Link removed] for detecting cell health; biosensors to monitor salt and glucose levels in blood; and optical tools for food security all play their part in optical applications on the continent.

Another area of African optics research that has important applications is the use of optical fibres for sensing the quality of soil and its structural integrity. Optical fibres are usually associated with communication, but a modern trend is to use the existing optical fibre already laid to sense for small changes in the environment, for instance, as early warning systems for earthquakes. The research shows that conventional fibre can also be used to tell if soil is degrading, either from lack of moisture or some physical shift in structure (weakness or movement). It is an immediately useful tool for agriculture, building on many decades of research.

The last century was based on electronics and controlling electrons. This century will be dominated by photonics, controlling photons.

Professor Zouheir Sekkat of University Mohamed V, Rabat, and director of the Pole of Optics and Photonics within MAScIR of University Mohamed VI Polytechnic Benguerir, Morocco, contributed to this article.

Light-based technologies have wide practical applications. Wikimedia Commons, CC BY [downloaded from https://theconversation.com/light-is-the-science-of-the-future-the-africans-using-it-to-solve-local-challenges-256031]

Here’s the special issue with two links:

Virtual Feature Issue

Joint feature issue in Applied Optics and Optics Continuum: Optical Science and Photonics in Africa (OSPA)

Zouheir Sekkat, Optics & Photonics Center, MAScIR-UM6P, Ben Guerir, and University Mohamed 5, Morocco (Lead Editor)
Andrew Forbes, University Witwatersrand, South Africa
Patience Mthunzi-Kufa, CSIR, South Africa
Balla Diop Ngom, University Cheikh Anta Diop, Senegal

OR

20 March 2025, Volume 64, Issue 9, pp. 2102-2323; Feat. pp: OSPA1–3; C1–C163  

Enjoy!

Spanning north to south and French to English on the African continent with nanotechnology

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A Sept. 27, 2015 news item on the Algérie Presse Service (rough translation: Algerian Press Agency) describes plans for a new nanotechnology centre shared by Algeria and South Africa,

Un projet de réalisation d’un centre de recherche algéro-sud-africain dédié à la synthèse et la caractérisation des nanomatériaux (structures à l’échelle de l’atome) pour différentes applications, a été annoncé dimanche à Alger lors d’un workshop sur les nanotechnologies.

Le lieu d’implantation du centre et le programme qui lui sera dédié seront décidés par le ministre de l’Enseignement supérieur et de la Recherche scientifique et son homologue sud-africain lors d’une réunion prévue en octobre prochain en Afrique du Sud, a indiqué Pr. Hafid Aourag, DG de la Recherche scientifique et du développement technologique qui présidait ce workshop entre experts algériens et sud africains sur les nanotechnologies.

The announcement about the new centre was made during a nanotechnology workshop being held in Algiers this last weekend (Sept. 26-27, 2015). The proposed nanotechnology center’s location and other details will be decided by the Algerian Minister of Higher Education and Scientific Research and his South African counterpart during an October 2015 meeting in South Africa according to Hafid Aourag, professor and Director General of Scientific Research and Technological Development in Algeria.

Aourag noted that Algeria and South Africa have a long and successful history of science collaboration,

“La coopération de l’Algérie avec l’Afrique du Sud a atteint un stade très avancé”, a-t-il estimé, révélant l’existence de “beaucoup de projets entre les laboratoires de recherche des deux pays”.

Pr. Aourag a rappelé que les deux pays avaient déjà “cofinancé plus de 25 projets” ayant donné des résultats concrets comme la publication de 35 travaux dans des revues et la réalisation de produits innovants issus des nanotechnologies.

“Il s’agit essentiellement de produits issus des nanomatériaux dans les domaines de l’agriculture et du traitement de l’eau”, a-t-il précisé.

There have been some 25 joint nanotechnology projects ranging from agricultural applications to water treatment.

Aourag added,

Il a relevé que la première centrale technologique en Algérie, dédiée à la fabrication des semi-conducteurs et spécialisée en nanotechnologie, “est déjà fonctionnelle et sera inaugurée, en octobre prochain”.

If I understand this rightly, Aourag is saying that Algeria has focussed on the semiconductor industry and the fabrication of parts at the nanoscale and this will be inaugurated October 2015.

It’s not clear to me  if this business about the semiconductors is part of the nanotechnology centre initiative or if it’s an incidental, related announcement.

As I found this north-south collaboration intriguing, I ran a search and found this on the University of South Africa website in a Sept. 10, 2013 news release,

Professor Malik Maaza, incumbent of the UNESCO-Unisa Africa Chair in Nanoscience and Nanotechnology, continues to represent the continent on the global nano stage. He was recently elected as the only African member of the advisory board of the Royal Society of Chemistry’s Journal of Materials Chemistry A, a prestigious materials journal.

With about 20 years of experience in nanosciences, Algerian born and an adoptive South African [emphasis mine] Professor Malik Maaza is an ideal incumbent for the UNESCO-Unisa Africa Chair in Nanoscience and Nanotechnology. He has undergraduate degrees in Solid State Physics and Photonics from the University of Oran, Algeria, and University of Paris VI, France. His PhD in Neutron Optics was obtained from the University of Paris VI.

He is a man passionate about voicing Africa’s nanoscience and nanotechnology knowledge production progress and contributions. Parallel to the initiation of the South African Nanotechnology Initiative (SANi) launched in 2006, which Maaza instigated with Dr Philemon Mjwara, current Director General of the national department of science and technology, in 2005, in Trieste-Italy, under the patronage of [The World Academy of Sciences] TWAS, [Abdus Salam International Centre for Theoretical Physics] ICTP and [United Nations Industrial Development Organization] UNIDO, he initiated the Nanosciences African Network (NANOAFNET), which has its headquarters at the iThemba LABS-NRF in Cape Town.

That’s all I’ve got on Algeria-South Africa science-themed relations and connections.

Should anyone have a better translation than I’ve been able to offer or more details about any aspect of this initiative, please do leave a comment.