Class information for: |
Basic class information |
Class id | #P | Avg. number of references |
Database coverage of references |
---|---|---|---|
548 | 3320 | 21.2 | 79% |
Hierarchy of classes |
The table includes all classes above and classes immediately below the current class. |
Cluster id | Level | Cluster label | #P |
---|---|---|---|
10 | 4 | OPTICS//PHYSICS, PARTICLES & FIELDS//PHYSICS, MULTIDISCIPLINARY | 1131262 |
89 | 3 | OPTICS//OPTICS LETTERS//FIBER LASER | 77430 |
60 | 2 | FIBER BRAGG GRATING//OPTICS//PHOTONIC CRYSTAL FIBER | 29150 |
548 | 1 | PHOTONIC CRYSTAL FIBER//CONFINEMENT LOSS//PHOTONIC CRYSTAL FIBER PCF | 3320 |
Terms with highest relevance score |
rank | Term | termType | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|---|
1 | PHOTONIC CRYSTAL FIBER | authKW | 3011360 | 19% | 51% | 647 |
2 | CONFINEMENT LOSS | authKW | 840972 | 3% | 89% | 103 |
3 | PHOTONIC CRYSTAL FIBER PCF | authKW | 586318 | 3% | 55% | 116 |
4 | PHOTONIC CRYSTAL FIBERS PCFS | authKW | 468058 | 2% | 78% | 65 |
5 | MICROSTRUCTURED FIBERS | authKW | 343144 | 2% | 48% | 78 |
6 | PHOTONIC BANDGAP FIBER | authKW | 306485 | 2% | 67% | 50 |
7 | MICROSTRUCTURED OPTICAL FIBER | authKW | 291914 | 2% | 50% | 63 |
8 | BRAGG FIBER | authKW | 288470 | 1% | 78% | 40 |
9 | LARGE MODE AREA | authKW | 249523 | 1% | 65% | 42 |
10 | MEDIA NETWORK TECHNOL | address | 227565 | 1% | 51% | 49 |
Web of Science journal categories |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | Optics | 118273 | 77% | 1% | 2567 |
2 | Engineering, Electrical & Electronic | 5181 | 25% | 0% | 821 |
3 | Telecommunications | 3724 | 9% | 0% | 312 |
4 | Physics, Applied | 2060 | 18% | 0% | 612 |
5 | Physics, Multidisciplinary | 510 | 7% | 0% | 245 |
6 | Instruments & Instrumentation | 144 | 3% | 0% | 98 |
7 | Electrochemistry | 4 | 1% | 0% | 33 |
8 | Materials Science, Ceramics | 3 | 1% | 0% | 19 |
9 | Nanoscience & Nanotechnology | 2 | 1% | 0% | 44 |
10 | Engineering, General | 0 | 1% | 0% | 19 |
Address terms |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | MEDIA NETWORK TECHNOL | 227565 | 1% | 51% | 49 |
2 | PHOTON PHOTON MAT | 224762 | 2% | 34% | 72 |
3 | METASTABLE MAT SCI TECHNOL | 177557 | 3% | 20% | 95 |
4 | OPT FIBRE TECHNOL | 107320 | 2% | 20% | 59 |
5 | INFRARED OPT FIB SENSORS | 70730 | 0% | 77% | 10 |
6 | OPT FIBER TECHNOL | 66624 | 1% | 25% | 29 |
7 | EXPERTISE PHOTON | 61930 | 0% | 42% | 16 |
8 | PHOTON SYST TECHNOL | 57465 | 0% | 63% | 10 |
9 | INT LASER | 53213 | 3% | 7% | 87 |
10 | COM | 52628 | 2% | 10% | 59 |
Journals |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
---|---|---|---|---|---|
1 | OPTICS EXPRESS | 96615 | 18% | 2% | 596 |
2 | OPTICAL FIBER TECHNOLOGY | 39498 | 2% | 6% | 70 |
3 | JOURNAL OF LIGHTWAVE TECHNOLOGY | 32075 | 6% | 2% | 205 |
4 | OPTICS LETTERS | 26204 | 9% | 1% | 291 |
5 | IEEE PHOTONICS TECHNOLOGY LETTERS | 15644 | 5% | 1% | 167 |
6 | OPTIK | 11936 | 4% | 1% | 118 |
7 | OPTICS COMMUNICATIONS | 9530 | 5% | 1% | 166 |
8 | JOURNAL OF OPTICS A-PURE AND APPLIED OPTICS | 8597 | 1% | 2% | 45 |
9 | OPTICAL AND QUANTUM ELECTRONICS | 6662 | 2% | 1% | 54 |
10 | IEEE PHOTONICS JOURNAL | 5204 | 1% | 2% | 34 |
Author Key Words |
Rank | Term | Chi square | Shr. of publ. in class containing term |
Class's shr. of term's tot. occurrences |
#P with term in class |
LCSH search | Wikipedia search |
---|---|---|---|---|---|---|---|
1 | PHOTONIC CRYSTAL FIBER | 3011360 | 19% | 51% | 647 | Search PHOTONIC+CRYSTAL+FIBER | Search PHOTONIC+CRYSTAL+FIBER |
2 | CONFINEMENT LOSS | 840972 | 3% | 89% | 103 | Search CONFINEMENT+LOSS | Search CONFINEMENT+LOSS |
3 | PHOTONIC CRYSTAL FIBER PCF | 586318 | 3% | 55% | 116 | Search PHOTONIC+CRYSTAL+FIBER+PCF | Search PHOTONIC+CRYSTAL+FIBER+PCF |
4 | PHOTONIC CRYSTAL FIBERS PCFS | 468058 | 2% | 78% | 65 | Search PHOTONIC+CRYSTAL+FIBERS+PCFS | Search PHOTONIC+CRYSTAL+FIBERS+PCFS |
5 | MICROSTRUCTURED FIBERS | 343144 | 2% | 48% | 78 | Search MICROSTRUCTURED+FIBERS | Search MICROSTRUCTURED+FIBERS |
6 | PHOTONIC BANDGAP FIBER | 306485 | 2% | 67% | 50 | Search PHOTONIC+BANDGAP+FIBER | Search PHOTONIC+BANDGAP+FIBER |
7 | MICROSTRUCTURED OPTICAL FIBER | 291914 | 2% | 50% | 63 | Search MICROSTRUCTURED+OPTICAL+FIBER | Search MICROSTRUCTURED+OPTICAL+FIBER |
8 | BRAGG FIBER | 288470 | 1% | 78% | 40 | Search BRAGG+FIBER | Search BRAGG+FIBER |
9 | LARGE MODE AREA | 249523 | 1% | 65% | 42 | Search LARGE+MODE+AREA | Search LARGE+MODE+AREA |
10 | BIREFRINGENCE | 138631 | 6% | 8% | 192 | Search BIREFRINGENCE | Search BIREFRINGENCE |
Core articles |
The table includes core articles in the class. The following variables is taken into account for the relevance score of an article in a cluster c: (1) Number of references referring to publications in the class. (2) Share of total number of active references referring to publications in the class. (3) Age of the article. New articles get higher score than old articles. (4) Citation rate, normalized to year. |
Rank | Reference | # ref. in cl. |
Shr. of ref. in cl. |
Citations |
---|---|---|---|---|
1 | POLETTI, F , PETROVICH, MN , RICHARDSON, DJ , (2013) HOLLOW-CORE PHOTONIC BANDGAP FIBERS: TECHNOLOGY AND APPLICATIONS.NANOPHOTONICS. VOL. 2. ISSUE 5-6. P. 315 -340 | 79 | 76% | 32 |
2 | RUSSELL, PSJ , (2006) PHOTONIC-CRYSTAL FIBERS.JOURNAL OF LIGHTWAVE TECHNOLOGY. VOL. 24. ISSUE 12. P. 4729 -4749 | 73 | 57% | 734 |
3 | YU, F , KNIGHT, JC , (2016) NEGATIVE CURVATURE HOLLOW-CORE OPTICAL FIBER.IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS. VOL. 22. ISSUE 2. P. - | 46 | 90% | 8 |
4 | SAITOH, K , KOSHIBA, M , (2005) NUMERICAL MODELING OF PHOTONIC CRYSTAL FIBERS.JOURNAL OF LIGHTWAVE TECHNOLOGY. VOL. 23. ISSUE 11. P. 3580-3590 | 69 | 97% | 103 |
5 | CUBILLAS, AM , UNTERKOFLER, S , EUSER, TG , ETZOLD, BJM , SADLER, PJ , WASSERSCHEID, P , RUSSELL, PS , JONES, AC , (2013) PHOTONIC CRYSTAL FIBRES FOR CHEMICAL SENSING AND PHOTOCHEMISTRY.CHEMICAL SOCIETY REVIEWS. VOL. 42. ISSUE 22. P. 8629 -8648 | 89 | 53% | 44 |
6 | CERQUEIRA, SA , (2010) RECENT PROGRESS AND NOVEL APPLICATIONS OF PHOTONIC CRYSTAL FIBERS.REPORTS ON PROGRESS IN PHYSICS. VOL. 73. ISSUE 2. P. - | 78 | 63% | 52 |
7 | FINI, J , BISE, R , (2004) PROGRESS IN FABRICATION AND MODELING OF MICROSTRUCTURED OPTICAL FIBERS.JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS. VOL. 43. ISSUE 8B. P. 5717 -5730 | 77 | 85% | 10 |
8 | KUHLMEY, BT , EGGLETON, BJ , WU, DKC , (2009) FLUID-FILLED SOLID-CORE PHOTONIC BANDGAP FIBERS.JOURNAL OF LIGHTWAVE TECHNOLOGY. VOL. 27. ISSUE 11. P. 1617-1630 | 58 | 75% | 113 |
9 | JIN, W , XUAN, HF , HO, HL , (2010) SENSING WITH HOLLOW-CORE PHOTONIC BANDGAP FIBERS.MEASUREMENT SCIENCE AND TECHNOLOGY. VOL. 21. ISSUE 9. P. - | 55 | 75% | 15 |
10 | POLETTI, F , (2014) NESTED ANTIRESONANT NODELESS HOLLOW CORE FIBER.OPTICS EXPRESS. VOL. 22. ISSUE 20. P. 23807 -23828 | 35 | 85% | 36 |
Classes with closest relation at Level 1 |