Large crowds of Iranian people gathered at Tehran's Enqelab Square on Sunday morning to mourn Supreme Leader Ayatollah Ali Khamenei, who was killed in U.S.-Israeli attacks on Saturday.
The Iranian government announced a 40-day mourning period after the country's state media confirmed the leader's death on Sunday.
Several Iranian senior officials, including Chief of Staff of the Iranian Armed Forces Abdolrahim Mousavi, Defense Minister Aziz Nasirzadeh, Secretary of the Defense Council Ali Shamkhani, and Mohammad Pakpour, chief commander of the Islamic Revolutionary Guard Corps, were also killed in the strike.
The mourners, some crying, were in grief and rage.
"We came here to show that we are more united than ever. We will always be there for our revolution," said one of the mourners.
"They have assassinated our leader, but they should know that we will get our revenge," said another mourner.
"Let them not think that by targeting our supreme leader, they can come into our country. We will not give even a single centimeter of our country," said a female mourner.
On Saturday morning, Israel and the United States launched joint attacks on Tehran and several other Iranian cities, including Tabriz, Qom, Isfahan, Kermanshah, and Karaj. Iran responded with missile and drone strikes targeting Israel and U.S. bases across the region.
Iranians gather in Tehran to mourn supreme leader
Iranians gather in Tehran to mourn supreme leader
Researchers at China's Chongqing University recently announced that a butterfly has successfully emerged from its pupa while orbiting Earth, yielding valuable data on biological survival in the harsh microgravity environment of space.
The butterfly chrysalis was sealed inside a small experimental space ecosystem payload developed by the university's research team and carried into space aboard the Kuaizhou-11 Y8 carrier rocket on Dec. 13, 2025.
Photos taken in space show the emerged butterfly moving inside the capsule, resting on leaves, and fluttering its wings, demonstrating notable adaptation to microgravity.
In order to witness the emergence of butterflies from their chrysalises in space, Professor Xie Gengxin of Chongqing University led a research team to conduct multiple rounds of screening and ultimately selected Swallowtail butterflies as the test subjects.
The selected butterfly species take approximately one to two weeks to transition from larvae to pupae and then to adult butterflies, which aligns with the duration of this on-orbit experiment. Additionally, the chrysalis's structure must withstand the various shocks encountered before and during launch.
"On the day of the launch, there will be intense vibrations. Therefore, when selecting the animals, we had to choose a species capable of enduring the two-week period of darkness and stillness before the launch while also being able to withstand the impact. In the end, we discovered that butterfly chrysalises were a relatively ideal target," said Qiu Dan, deputy chief engineer of the butterfly experiment payload.
The research team's payload, "Shennong Kaichu 2," serves as the "space home" for the butterfly chrysalises. It has a total mass of 8.3 kilograms and an internal usable space of 14.2 liters. In addition to the butterfly chrysalises, the research team also placed a chili plant, soil, water, and other materials inside the payload.
"With leaves on the chili plant, when sunlight shines in, it can carry out photosynthesis and produce oxygen for the little butterfly. We also introduced some microorganisms into the soil. On one hand, they help improve the soil; on the other hand, they can regulate oxygen and carbon dioxide levels while also purifying the air," said Xie, who is also the chief engineer of the butterfly experiment payload.
Data frameshifted back from the space show that technical indicators inside the sealed cabin of the "Shennong Kaiwu-2" payload, including pressure, temperature, and humidity, have remained stable and normal.
The successful hatching and flight of the butterfly in a microgravity environment not only verified the resilience of life on Earth but also provided important reference for life-support technologies in future long-term deep-space exploration.
Chinese space experiment sees butterfly emerge from in orbit
Chinese space experiment sees butterfly emerge from in orbit
