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The researchers received the prize in recognition for their contributions in various fields of science.
Two Moroccan scientists, Said Yaktin and Khalil Ben Haj Amin, were recently honored at the 41st Kuwait Prize ceremony, a celebration of global scientific brilliance.
This prestigious award, presented by the Kuwait Foundation for the Advancement of Science (KFAS), aims to recognize and reward Arab scientists for their excellence across a range of scientific disciplines.
Said Yatkin, Professor of Higher Education at the Faculty of Letters and Humanities at Mohammed V University in Rabat, was awarded the prize in the Humanities, Arts, and Literature category.
His work on “Literature and Art in the Arab World – Specialization in Narrative Sciences” was selected from a pool of 43 applications for the prize in the literary category.
This recognition is the result of his extensive research on narrative, literary theory, critical literature, Arab-Islamic narrative heritage, and popular culture.
Yaktin’s dedication to advancing knowledge in these domains continues to serve as an inspiration to other scholars and students.
Meanwhile, Khalil Ben Haj Amin, who heads the battery technology group at the U.S. Department of Energy’s Argonne National Laboratory, was honored in the Applied Sciences category, under the theme of “Clean and Sustainable Energy Technologies.”
Ben Haj’s groundbreaking work in battery technology and his contribution to the applied sciences of clean and sustainable energy technology stood out from the work of 30 finalists.
His achievements have been hailed for paving the way for significant advances in the energy sector and promoting environmentally-friendly solutions.
Established in 1979 by the Kuwait Foundation for the Advancement of Science, the Kuwait Prize embodies the Foundation’s commitment to supporting scientific research in all its facets. It also inspires Arab scholars and scientists to strive for excellence in their fields.
Americans born in or with ancestral ties to Arab-speaking countries have made countless significant scientific, medical and engineering contributions.
While Americans born in or with ancestral ties to Arab countries have made countless significant scientific, medical and engineering contributions, most have never made it into record books. From cryptography, to the artificial heart, to the iPod, here are a few examples of some of the major advancements by Arab Americans.
1. Television Transmission and LCD Screens
Born in Nabatieh, Lebanon in 1895, Hassan Kamel Al-Sabbah studied and then taught mathematics at the American University of Beirut before immigrating to the United States in 1921. After a brief stint studying at the Massachusetts Institute of Technology (MIT), Al-Sabbah earned a master’s degree in engineering sciences from the University of Illinois, says Lujine Nasralla, communications specialist at the Arab American National Museum in Dearborn, Michigan.
“In 1923, General Electric (GE) hired him to work in its Engineering Laboratory under a contract that awarded him a dollar for each of his patents,” Nasralla explains, noting that between 1927 and 1935, he applied for patents for 52 of his inventions while working at GE. Some of the patents Al-Sabbah was awarded during his time at GE include three for innovations in television transmission technology (granted between 1928 and 1930), and two for cathode ray tubes (1935).
Though Al-Sabbah died in a car accident 1935, GE engineers continued to rely on the technology he invented, including developing the liquid crystal display (LCD) based on one of his patents. Al-Sabbah made numerous other significant contributions to science, technology and engineering, especially in the field of solar energy.
2. Emotion Recognition Technology
RANA EL KALIOUBY, CO-FOUNDER AND CHIEF EXECUTIVE OFFICER OF AFFECTIVA, SPEAKING DURING THE NEW WORK SUMMIT, CALIFORNIA, 2019. / DAVID PAUL MORRIS/BLOOMBERG VIA GETTY IMAGES
While Rana El Kaliouby was completing her doctoral research at the University of Cambridge in England in the early 2000s, she never felt as though she could ever truly connect with her loved ones back home. “Away from her family and friends in Egypt, El Kaliouby wished her computer could better convey her emotional state,” Nasralla says. That’s when she decided to find a way to make more emotionally intelligent technology.
After earning her doctorate, El Kaliouby took a position as a research scientist in the Affective Computing group in the MIT Media Lab. There, she was part of a team that developed an “emotional hearing aid,” as well as a pair of eyeglasses that could read emotions, along with social cues. Officially known as “the Emotional-Social Intelligence Prosthesis,” El Kaliouby and a colleague created the wearable technology in 2006 for people living with autism who have difficulty identifying and processing other people’s emotions as they communicate.
In 2009, El Kaliouby and the same MIT colleague co-founded a company called Affectiva, which used deep learning, computer vision, speech science and vast amounts of real-world data to develop emotion recognition technology. “Her pioneering technology accurately reads minute changes in facial expressions that convey emotions,” Nasralla says, adding that El Kaliouby is a member of the Women in Engineering Hall of Fame.
3. The iPod and iPhone
TONY FADELL, WHO OVERSAW THE DESIGN OF THE IPOD AND IPHONE, PHOTOGRAPHED IN SINGAPORE, 2019 / WEI LENG TAY/BLOOMBERG VIA GETTY IMAGES
There was a time in the not-so-distant past when listening to music outside of your home meant bringing the physical album with you on a record, audio cassette or compact disc. And while portable MP3 players existed before 2001, none were popular enough to make the device the standard way of listening to music on the go. That is, until Apple CEO Steve Jobs hired Arab American inventor Anthony “Tony” Fadell and put him in charge of a new special projects group within the company tasked with doing exactly that.
The result was the iPod, which launched in 2001. Fadell, who is now known as “ the father of iPod,” went on to oversee the first 18 iterations of the device before Jobs gave him his next assignment: to create a mobile phone with many of the same features as the iPod.
This time, the end product was the iPhone, which essentially allowed people to carry a highly compact computer with internet capability around at all times, and, in the process, changing the way people access information. Fadell was involved with developing the first three generations of the iPhone.
4. Developments in Surgery
HEART SPECIALIST DR. MICHAEL DEBAKEY, C. 1994. / F. CARTER SMITH/SYGMA/GETTY IMAGES
Born in Lake Charles, Louisiana in 1908 to Lebanese immigrants, Michael DeBakey (the Anglicized form of Debaghi) grew up spending time in his father’s pharmacy and enjoyed sewing, gardening and learning how motors and other machinery work. He earned his medical degree in 1932 and served in the Surgical Consultants Division of the Army Surgeon General’s Office from 1942 to 1946.
It was during this time that DeBakey and his colleagues developed special units dedicated to providing surgical care to soldiers wounded near the front lines. They were first deployed in 1943, though are best known for their work during the Korean and Vietnam conflicts, when they were known as the Mobile Auxiliary Surgical Hospital (MASH) units.
DeBakey’s surgical contributions continued for the next several decades and included performing the first successful removal of a blockage of the carotid artery (1953), developing the concept behind coronary bypass surgery (1963), pioneering the field of telemedicine with the first demonstration of open-heart surgery transmitted overseas via satellite (1965), and being the first to use a partial artificial heart (1966).
5. Internet Security
While internet security is top-of-mind now, that wasn’t the case when Egyptian-born cryptographer Taher Elgamal began his pioneering work in the field in the 1980s. “Elgamal published a paper in 1984, ‘A Public Key Cryptosystem and a Signature Scheme based on Discrete Logarithms,’ which became the basis of the Elgamal Digital Signature algorithm,” says Richard Gardner, a software developer and CEO of Modulus. This work was then utilized in the development of the Digital Signature Algorithm (DSA).”
Elgamal’s work became even more influential after the National Institute of Standards and Technology (NIST) adopted it as the Digital Signature Standard (DSS). “Like the name implies, it became the standard for electronic signatures,” Gardner explains.
And according to Abdulrahman Henedy, an Arab American entrepreneur and founder of Financeive , Elgamal’s invention of the discrete logarithm was also an important milestone in cryptography. “His work inspired other encryption variations and paved the way to create more advanced algorithms, like Advanced Encryption Standard,” he explains.
In addition, Elgamal was the driving force behind the Secure Sockets Layer (SSL), a protocol that keeps online communications like email and instant messaging secure. Because of this major technological development, he is known as the “father of SSL.”
6. The Waffle Cone
Though it may not be the most high-tech invention on the list, the waffle cone stands out not only because it’s delicious, but because not one, but four different Arab Americans claimed to have invented it. And what’s perhaps even more bizarre, is that in an origin story with so many inconsistencies, all four of the men contend that their ice cream innovation was born at the 1904 Louisiana Purchase Exposition—better known as the Saint Louis World’s Fair.
According to Nasralla, Ernest Hamwi, Nick Kabbaz, Abe Doumar and Leon B. Holwey each had their own story about how they came up with the waffle cone in 1904. “We give credit to all four of them, but we don’t recognize any of the stories as more plausible than the others,” she explains. “It remains a mystery to this day!”
But that mystery extends beyond which of the Arab American vendors (if any) deserves credit for the waffle cone. That’s because on top of these four narratives, there are several other origin stories , including some that took place prior to 1904. And though we may never know who first devised a handheld edible ice cream container, it’s safe to say that the 1904 World Fair and its Arab American dessert vendors did have a hand in popularizing what we now know as the waffle cone.
source/content: history.com (headline edited) / Elizabeth Yuko
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HEART SURGEON DR. MICHAEL DEBAKEY. CREDIT: BETTMANN ARCHIVE/GETTY IMAGES
Formerly – President Sadat’s Scientific Advisor (1978-1981)
Founder – Center for Earth and Planetary Studies, National Museum of Atmospheric and Space, at the Smithsonian Institution, Washington DC
Dr. El Baz played a pivotal role for the Apollo mission where he served as the secretary for the Apollo landing board on the moon, and was responsible for leading the astronaut training team in general science, particularly in moon imaging
So pivotal was he to Apollo that in Tom Hanks’ HBO TV-series, From the Earth to theMoon , El-Baz’s role as an Apollo scientist and astronaut trainer was featured in a segment entitled, “The Brain of Farouk El-Baz,” and a shuttle craft named El-Baz soared through the popular TV-series Star Trek : The Next Generation
Awards:
He has won over 31 awards, including achievements in science, in NASA, incl:
Golden Door Award of the International Institute of Boston
Nevada Medal of the Desert Research Institute
The Pioneer Award of the Arab Thought Foundation.
The Apollo Achievement Award
Honour:
Asteroid 7371 El-Baz, discovered by American astronomers Eleanor Helin and Schelte Bus at Palomar Observatory in 1978, was named in his honor. The official naming citation was published by the Minor Planet Center on 27 August 2019 ( M.P.C. 115893).
Book:
Deserts and Arid Lands , Martinus Nijhoff Publishers, ISBN 90-247-2850-9
Dr. Moungi Bawendi is a Tunisian-American chemist.
He is the Lester Wolfe Professor at the Massachusetts Institute of Technology.
Moungi Bawendi is one of the original participants in the field of colloidal quantum dot research, and among the most cited chemists of the last decade.
This work has included: (1) the development of novel methods for synthesising, characterising, and processing quantum dots, magnetic nanoparticles, and tubular J-aggregates as novel materials building blocks, (2) studying fundamental optical and magnetic properties of nanostructures using a variety of spectroscopic methods, including the development of optical photon correlation tools to study single nanoscopic emitters, (3) incorporating quantum dots and magnetic particles into various optical and electronic device structures, and (4) developing nanoparticles and other agents for biomedical imaging.
Became a Clarivate Citation Laureate in 2020.
Received his A.B. in 1982 from Harvard University
Ph.D. in Chemistry in 1988, University of Chicago.
Two years of postdoctoral research at Bell Laboratories, working with Dr. Louis Brus, where he began his studies on nanomaterials.
Joined the faculty at MIT in 1990, becoming Associate Professor in 1995 and Professor in 1996.
His main science interests in space and planetary geophysics covers Mars, the Moon, icy satellites and Near Earth Objects.
A member of the several NASA and ESA missions science teams including the MARSIS instrument aboard the Mars Express orbiter (2003-present), the Mini-SAR experiment aboard Chandrayaan-1, the Mini-RF experiment on board the Lunar Reconnaissance Orbiter (2008-present), the CONSERT radar experiment on board the Rosetta mission (2004-2015) and the RIME experiment Onboard JUICE mission for Jupiter Icy Satellites .
Heggy is the Principal Investigator of the NASA Earth Venture Mission Concept OASIS that aims to characterize groundwater in Hyper-Arid Environments .
Heggy served as a panel member for several NASA programs including the Planetary Instrument Definition and Development program, Planetary Geology and Geophysics program, Mars Data Analysis program, Astrobiology program and the Educational and Public Outreach program.
He also edited a special JGR-planets volume on terrestrial and planetary radars. He is on the editing board of Geosciences and National Geography and co-chaired several sessions in American Geophysical Union and other international meetings on planetary radars.
Education:
Ph.D – Astronomy and Planetary Science – Paris-Sorbonne University, Paris (2002)
Award/ Honours :
JPL/NASA Mariner Award
Served as Egyptian President Advisor for Scientific Affairs (2013-2014)