Hollow-core optical fibers

The invention claimed is: 1. An anti-resonant hollow-core fiber comprising a first tubular, cladding element which defines an internal cladding surface, a plurality of second tubular elements which are attached to the cladding surface and together define a core with an effective radius, the second tubular elements being arranged in spaced, non-touching relation and adjacent ones of the second tubular elements having a spacing therebetween, and a plurality of third tubular elements, each nested within a respective one of the second tubular elements to provide nested tubular arrangements, wherein a ratio of the spacing of the adjacent second tubular elements and a wall thickness of the second tubular elements is greater than 0.5 and less than 12 and a ratio of a radial spacing between radially-inner walls of the second and third tubular elements to the core radius is between 0.35 and 0.95. 2. The fiber of claim 1 , wherein: (i) the nested tubular arrangements are arranged in symmetrical relation at the cladding surface; (ii) the first tubular element is circular in section; (iii) the second tubular elements are circular in section or have a longer dimension in a radial direction than a tangential direction, optionally elliptical or oval in section; (iv) one or more of the tubular elements have different sectional shape; and/or (v) the tubular elements are formed of glass, optionally silica, optionally the tubular elements are formed of glass having a refractive index of at least 1.4, optionally 1.4 to 3, optionally 1.4 to 2.8. 3. The fiber of claim 1 , wherein the second tubular elements are attached to the first tubular element each only at a single connection on the cladding surface, optionally the third tubular elements are attached to the respective second tubular elements at the locations at which the second tubular elements are attached to the cladding surface. 4. The fiber of claim 1 , wherein (i) a ratio of the spacing of the adjacent second tubular elements and a wall thickness of the second tubular elements is greater than 0.8, optionally greater than 1, and optionally greater than 2, and/or (ii) a ratio of the spacing of the adjacent second tubular elements and a wall thickness of the second tubular elements is less than 10, optionally less than 8, and optionally less than 6. 5. The fiber of claim 1 , wherein the second and third tubular elements have substantially the same wall thickness. 6. The fiber of claim 1 , wherein the fiber has: (i) a fundamental loss of less than 0.15 dB/km at wavelengths of between 1.0 μm and 2.5 μm; or (ii) a fundamental loss of less than 1 dB/km at wavelengths of down to 0.8 μm. 7. The fiber of claim 1 , wherein the core radius is optionally less than 50 μm, optionally less than 40 μm, optionally less than 30 μm, optionally less than 25 μm, optionally less than 20 μm, optionally less than 15 μm, optionally less than 13 μm. 8. The fiber of claim 1 , wherein the fiber includes three, four, five or six nested arrangements of tubular elements. 9. The fiber of claim 1 , wherein the fiber exhibits an effective single mode, optionally a differential between a fundamental mode and a lowest-loss high-order mode is at least one order or magnitude, optionally at least two orders of magnitude. 10. The fiber of claim 1 , wherein the fiber allows any mode field diameter (MFD) to be selected for any given wavelength. 11. The fiber of claim 1 , wherein a differential in a fundamental loss between the fiber when straight and when coiled to a diameter of 10 mm is less than two orders of magnitude, optionally less than one order of magnitude, optionally less than half an order or magnitude. 12. The fiber of claim 1 , further comprising a plurality of fourth tubular elements which are each nested within respective ones of the third tubular elements, optionally the second, third and fourth tubular elements have substantially the same wall thickness. 13. An anti-resonant hollow-core fiber comprising a first tubular, cladding element which defines an internal cladding surface, a plurality of second tubular elements which are attached to the cladding surface and together define a core with an effective radius, the second tubular elements being arranged in spaced, non-touching relation and adjacent ones of the second tubular elements having a spacing therebetween, and a plurality of third tubular elements, each nested within a respective one of the second tubular elements to provide nested tubular arrangements, wherein the second, outer tubular element of at least one of the nested tubular arrangements has a wall thickness t 1 which is different to that of a wall thickness t 2 of the second, outer tubular element of at least one of the other nested tubular arrangements, whereby the fiber is phase bi-refringent and polarizing-maintaining and/or polarizing. 14. The fiber of claim 13 , wherein: (i) the relationship of the wall thickness t 1 of the outer tubular element of the at least one of the nested tubular arrangements to the wall thickness t 2 of the outer tubular element of the at least one other of the nested tubular arrangements is 0.5t 2 <t 1 <t 2 or 1.5t 2 >t 1 >t 2 , optionally 0.4t 2 <t 1 <t 2 or 1.4t 2 >t 1 >t 2 , optionally 0.3t 2 <t 1 <t 2 or 1.3t 2 >t 1 >t 2 ; and/or (ii) the relationship of the wall thickness t 1 of the outer tubular element of the at least one of the nested tubular arrangements to the wall thickness t 2 of the outer tubular element of the at least one other of the nested tubular arrangements is t 1 <0.9t 2 or t 1 >1.1t 2 . 15. The fiber of claim 13 , wherein the second, outer tubular elements of first and second of the nested tubular arrangements have a wall thickness which is different to that of the wall thickness of the second, outer tubular element of at least one other of the nested tubular arrangements, optionally the first and second tubular arrangements are disposed in generally opposed relation, optionally diametral relation. 16. The fiber of claim 13 , comprising two, three, four, five, six, seven or eight nested tubular arrangements, optionally comprising four nested tubular arrangements, wherein a first pair of the nested tubular arrangements are arranged in a first substantially common direction and a second pair of the nested tubular arrangements are arranged in a second substantially common direction which is substantially orthogonal to the first substantially common direction. 17. The fiber of claim 13 , wherein the effective radius of the core of the fiber is at most 15 times the wavelength λ of the source, optionally at most 7 times, optionally at most 5 times, optionally the wavelength λ is about 0.5, 0.8, 1.06, 1.55 or 2 μm. 18. The fiber of claim 13 , wherein one inner tubular element, optionally the innermost tubular element, of the at least other of the nested tubular arrangements has a sectional size and/or shape which is different to the counterpart one tubular element of the at least one of the nested tubular arrangements, whereby a spacing Z 1 between the one inner tubular element and an adjacent tubular element of the at least other of the nested tubular arrangements is different to a spacing Z 2 between the counterpart one tubular element and adjacent tubular element of the at least one of the nested tubular arrangements, optionally the one inner tubular element of the at least other of the nested tubular arrangements has a different sectional size, optionally the relationship of the spacing Z 1 of the at least one other of the nested tubular arrangements to the spacing Z 2 of t