FINESSE

Brand Owner (click to sort) Address Description
FINNESSE Frostmann & Company, Inc. 1185 Ave. of The Americas New York NY 10036 finesse;worsted and wool fabrics;
FYNESSE Fiber & Yarn Products, Inc. 1125 7th Avenue NW Hickory NC 28601 FINESSE;Color is not claimed as a feature of the mark.;textile yarns;
FYNESSE Adelglass, Barbara 2525 N Pearl #902 Dallas TX 75201 FINESSE;The wording FYNESSE has no meaning in a foreign language.;Beauty consultation services in the selection and use of dermal fillers, lifting and enhancing the face and body through the use of dermal fillers, fats, laser skin rejuvenation services, laser skin tightening services, laser and intense pulse light skin enhancement procedures, electrical stimulation treatment, and radio frequency treatments for medical or aesthetic purposes; Beauty treatment services in the nature of cosmetic face and body care services;
I N F I N E S S E Microfibres, Inc. One Moshassuck Street Pawtucket RI 028604874 IN FINESSE;upholstery flocked fabric;
INFINESSE Microfibres Inc. One Moshassuck Street Pawtucket RI 02860 IN FINESSE;upholstery flocked fabric;
INFINESSE ALBION CO., LTD. 1-7-10 Ginza Chuo-Ku Tokyo 104-0061 Japan IN FINESSE;Milk for cosmetic purposes for skin and facial care; facial washes; skin lotions; beauty serums for skin and facial care; non-medicated skin serums; non-medicated serums for use on lips; lip creams; cleansing creams for skin and facial care; cleansing milks for skin and facial care; eye creams; face creams; cosmetic creams for skin and facial care; non-medicated skin care preparations;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A laser cavity comprising a gain medium and first and second end mirrors, wherein the laser cavity further comprises a birefringent material and a mirror arranged to fold light propagating within the laser cavity through a predetermined angle, wherein the predetermined angle is selected such that the reflectivity of the fold mirror is polarisation dependent, and the birefringence of the birefringent material co-operates with the polarisation dependent reflectivity of the fold mirror to form a Lyott filter which suppresses oscillation of unwanted laser modes. The invention allows the construction of a low loss, high finesse laser cavity with longitudinal mode control. The need for introduction of an extra polarisation selection element to form a Lyott filter is removed.