The present disclosure, in an embodiment, is a facility that includes a device configured to generate a beam having an energy range of 5 MeV to 500 MeV, a first radiation shielding wall surrounding the device, a second radiation shielding wall surrounding the first radiation shielding wall, radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall forming a first barrier. In embodiments, the radiation shielding fill material includes at least fifty percent by weight of an element having an atomic number from 12 to 83, and a thickness of the first barrier is 0.5 meter to 6 meters.

The present disclosure, in an embodiment, is a facility that includes a device configured to generate a beam having an energy range of 5 MeV to 500 MeV, a first radiation shielding wall surrounding the device, a second radiation shielding wall surrounding the first radiation shielding wall, radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall forming a first barrier. In embodiments, the radiation shielding fill material includes at least fifty percent by weight of an element having an atomic number from 12 to 83, and a thickness of the first barrier is 0.5 meter to 6 meters.

Disclosed is a radioprotective building block for building a wall that is able to form a screen to ionizing radiation. The radioprotective building block includes:a core made of at least one radioprotective material, anda shell enclosing said core and including at least one shell part that is fitted around the core.

Disclosed is a radioprotective building block for building a wall that is able to form a screen to ionizing radiation. The radioprotective building block includes:a core made of at least one radioprotective material, anda shell enclosing said core and including at least one shell part that is fitted around the core.

A system includes a gantry of a medical imaging apparatus. In an embodiment, the gantry includes an X-ray source, and a radiation protection booth, which can be installed or suspended relative to the gantry.

A system includes a gantry of a medical imaging apparatus. In an embodiment, the gantry includes an X-ray source, and a radiation protection booth, which can be installed or suspended relative to the gantry.

An outpatient surgical center can include a hybrid operating room. The hybrid operating room can include at least one radiation shielded wall, a floor, and a ceiling. The hybrid operating room can also include an imaging device disposed in the hybrid operating room. The hybrid operating room can further include an operating table disposed in the hybrid operating room. A building for the outpatient surgical center can initially be constructed to conform to International Building Code (IBC) Class B standards.

An outpatient surgical center can include a hybrid operating room. The hybrid operating room can include at least one radiation shielded wall, a floor, and a ceiling. The hybrid operating room can also include an imaging device disposed in the hybrid operating room. The hybrid operating room can further include an operating table disposed in the hybrid operating room. A building for the outpatient surgical center can initially be constructed to conform to International Building Code (IBC) Class B standards.

The present disclosure, in an embodiment, is a facility that includes a device configured to generate a beam having an energy range of 5 MeV to 500 MeV, a first radiation shielding wall surrounding the device, a second radiation shielding wall surrounding the first radiation shielding wall, radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall forming a first barrier. In embodiments, the radiation shielding fill material includes at least fifty percent by weight of an element having an atomic number from 12 to 83, and a thickness of the first barrier is 0.5 meter to 6 meters.

The present disclosure, in an embodiment, is a facility that includes a device configured to generate a beam having an energy range of 5 MeV to 500 MeV, a first radiation shielding wall surrounding the device, a second radiation shielding wall surrounding the first radiation shielding wall, radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall forming a first barrier. In embodiments, the radiation shielding fill material includes at least fifty percent by weight of an element having an atomic number from 12 to 83, and a thickness of the first barrier is 0.5 meter to 6 meters.