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The sonic boom problem of supersonic aircraft has always been a huge obstacle to its commercial application. The strong noise produced by the sonic boom not only causes trouble to residents, but is also subject to strict restrictions by laws and regulations, resulting in restrictions on the flight of supersonic aircraft in many areas. The lift and lift-to-drag ratio are directly related to the flight performance and fuel efficiency of the aircraft. For air transport cargo, this means lower operating costs and higher transportation efficiency.

The technology of "punching holes" on the wings developed by Chinese scientists is expected to change this situation. Through the careful design of the hole layout and size, the airflow can be effectively controlled to reduce the intensity of the sonic boom. At the same time, this innovative design may also improve the lift and lift-to-drag ratio of the aircraft and improve flight performance.

For the air transport cargo industry, this technological breakthrough means huge opportunities. First, the application of supersonic aircraft will greatly shorten the transportation time of goods and improve transportation efficiency. Goods that used to take several days to arrive may be transported within hours in the future, which will greatly meet the market's demand for fast delivery. In particular, it will bring huge advantages to high-value and time-sensitive goods, such as fresh products and medical supplies.

Secondly, higher flight performance will reduce operating costs. Reduced fuel consumption and lower maintenance costs will enable air cargo companies to offer more competitive prices, attract more customers, and further expand their market share.

However, the application of this technology is not smooth sailing. The introduction of new technologies needs to undergo rigorous testing and certification to ensure their safety and reliability. At the same time, large-scale applications also need to solve problems such as production costs and maintenance technology.

In the face of these challenges, the air transport cargo industry needs to actively cooperate with scientific research institutions to jointly promote the development and application of technology. At the same time, the government should also introduce relevant policies to support technological innovation in the air transport industry and create a good environment for the development of the industry.

In general, the innovative research of Chinese scientists on "punching holes" on wings has brought new hope to the air transport cargo industry. Although there are still many challenges on the road to technology application, as long as all parties work together and seize this opportunity, the future of air transport cargo will usher in a new era of greater efficiency and convenience.