Abstract: A laser scanning imaging system and method for obtaining an extended-depth-of-field image of a volume of a sample are provided. The system includes a laser module generating an input laser beam, a beam shaping module including an axicon and a Fourier-transform lens, and an imaging module including an objective lens and a detecting assembly. The axicon, Fourier-transform lens and objective lens are formed and disposed to successively convert the input laser beam into an intermediate non-diffracting beam, an intermediate annular beam, and an excitation non-diffracting beam. The excitation beam is projected onto the sample and has a depth of field and transverse resolution together defining a three-dimensional excitation region. The detecting assembly collects electromagnetic radiation from the excitation region to obtain one pixel of the extended-depth-of-field image.

Abstract: A laser scanning imaging system and method for obtaining an extended-depth-of-field image of a volume of a sample are provided. The system includes a laser module generating an input laser beam, a beam shaping module including an axicon and a Fourier-transform lens, and an imaging module including an objective lens and a detecting assembly. The axicon, Fourier-transform lens and objective lens are formed and disposed to successively convert the input laser beam into an intermediate non-diffracting beam, an intermediate annular beam, and an excitation non-diffracting beam. The excitation beam is projected onto the sample and has a depth of field and transverse resolution together defining a three-dimensional excitation region. The detecting assembly collects electromagnetic radiation from the excitation region to obtain one pixel of the extended-depth-of-field image.