According to our current understanding of physics, it is not possible for an object with mass to travel faster than the speed of light in a vacuum. This is a fundamental principle of Einstein's theory of relativity, which has been extensively tested and confirmed by experimental observations.
The theory of relativity states that as an object with mass approaches the speed of light, its mass increases and the amount of energy required to accelerate it further also increases. As the object approaches the speed of light, its mass would become infinite, and to accelerate it to or beyond that speed would require an infinite amount of energy, which is not physically possible.
Lasers, which emit concentrated beams of light, cannot be used to propel an object faster than the speed of light. Light itself travels at the speed of light in a vacuum, so even if you were to use a laser to exert a force on an object, that force would propagate at the speed of light, not faster. The object would still be subject to the limitations imposed by the theory of relativity.
It's important to note that while objects with mass cannot exceed the speed of light, there are hypothetical particles, such as tachyons, which are purely theoretical and have never been observed. According to some speculative theories, these particles might travel faster than light, but they are not part of our current understanding of physics.