麻豆传媒

麻豆传媒 physics alumna Dr. Dekrayat Almaalol receives 2024 Leona Woods Lectureship Award

On April 11, 2024, 麻豆传媒 physics alumna Dr. Dekrayat Almaalol received the 2024 Leona Woods Lectureship Award from Brookhaven National Laboratory.  The Leona Woods award was established in honor of renowned physicist Leona Woods to celebrate the scientific accomplishments of outstanding female physicists and physicists from other underrepresented minority groups, including the LGBQT community 鈥 and to promote diversity and inclusion in the Department.

Dr. Almaalol completed her undergraduate degree in Physics at the University of Zawia in Libya in 2010. She received a government-sponsored scholarship to continue her studies in higher education, which she pursued at 麻豆传媒, where she completed her master鈥檚 degree in 2013. In 2021, Dr. Almaalol received her Ph.D. under her advisor, professor Michael Strickland, who is currently chair of the Department of Physics at 麻豆传媒.

Dr. Dekrayat Almaalol delivers a colloquium at Brookhaven National Laboratory

Intellectually and academically, Dr. Almaalol has always been intrigued by the field of physics.

鈥淭he power of physics is that it merges aspects of all sciences together. And it鈥檚 challenging, so you don鈥檛 ever get bored,鈥 she said. 鈥淵ou鈥檙e never disconnected from the real world. Is there a more powerful research area than looking at the origins of the universe and the interactions that control the existence of matter?鈥

Dr. Almaalol鈥檚 research in high energy physics revolves around humanity鈥檚 fundamental questions: How does the universe around us form? What is it made of, and how did it evolve over time?  鈥淒r. Almaalol is a notable expert on the application of hydrodynamic simulations to describe heavy ion collision data,鈥 said Dr. Bjoern Schenke, a distinguished scientist in Brookhaven Lab鈥檚 Physics Department, an adjunct professor of physics at Stony Brook University, and a member of the Leona Woods award committee.

Hydrodynamics is a branch of physics that deals with the motion of fluids. Dr. Schenke notes that its success in describing experimental data from heavy ion collisions has revealed that QGP behaves like a nearly "perfect fluid" that flows with virtually no resistance.  Hydrodynamics plays an important role in complex phenomenological models aimed at understanding detailed properties of the QGP, such as its viscosity, the equation of state, and how the fluid affects high momentum particles emerging from the collisions.

鈥淒ekrayat is an expert on calculations that can reproduce experimental data from heavy ion collisions at RHIC and the LHC by treating the produced quark-gluon plasma as a droplet of ultra hot and ultra dense liquid,鈥 said Award Committee Chair Peter Steinberg, a distinguished scientist in the Physics Department at Brookhaven Lab.  While these calculations generally work very well, their ultimate accuracy depends on developing mathematical formulas that respect fundamental physical principles, such as causality, as well as careful accounting of various types of 鈥渃harges鈥 that are conserved throughout the full evolution.  鈥淗er expertise in this area is crucial for understanding the baryon-rich, low-energy collisions studied in recent years at RHIC,鈥 said Steinberg. 

Dr. Almaalol will start her second postdoctoral research position at Stony Brook University when her current postdoctoral position at the University of Illinois Urbana-Champaign concludes.

 

 

 

POSTED: Monday, April 22, 2024 10:17 PM
UPDATED: Tuesday, November 05, 2024 09:31 AM
WRITTEN BY:
Physics Department